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s6e1c series 32 - bit arm ? cortex ? - m 0+ fm 0+ microcontroller cypress semiconductor corporation ? 198 champion court ? san jose , ca 95134 - 1709 ? 408 - 943 - 2600 document number: 002 - 00233 rev. *d revised april 13, 2017 the fm0+ family of flexible microcontrollers is the industrys most energy - efficient 32 - bit arm ? cortex ? - m0+ based mcus. this family of mcus is designed for ultra - low - power and cost - sensitive applications such as white goods, sensors, meters, hmi systems, power tools and internet of things (iot) battery - powered or wearable devices. this family of ultra - low - power mcus features an industry - leading 35 a/coremark ? score and 40a/mhz active power consumption. the s6e1 c series is a series of highly integrated 32 - bit microcontrollers designed for embedded controllers aiming at low power consumption and low cost . th is s eries has the arm cortex - m0+ processor with on - chip flash memory and sram, and consists of peripheral functions such as various t imers, adc and c ommunication i nterfaces (uart, c sio (spi), i 2 c , i 2 s, smart card, and usb). the products which are described in this data sheet are placed into type 3 - m0+ product categories in "fm 0+ family peripheral manual ". features ultra low power mcu subsystem ? 40 mhz arm cortex - m0+ cpu with 1.65 v to 3.6 v operating voltage ? maximum operating frequency: 40 .8 mhz ? nested vectored interrupt controller (nvic): 1 non - maskable interrupt ( nmi ) and 24 peripheral interrupt with 4 selectable interrupt priority levels ? 24 - bit system timer (sys t ick): syst em timer for os task management ? up to 128 kb flash, 16 kb sram ? descriptor system transfer controller ( dstc) ? industry's most efficient 35 a/coremark score ? ultra - low - power consumption: active C 40 a/mhz and standby C 0.6 a ? fast wake - up from standby mode (execute from flash): 20 s (typ) digital subsystem ? up to 8x base timers ? 1x dual timer, 1x watch counter ? up to 6x multi - function serial (mfs) interfaces configurable as spi, uart, i 2 c ? up to 1x usb, up to 2 x i 2 s, up to 2x hdmi - cec, up to 1x smart card interfaces analog subsystem ? 1x 12 - bit, 1 - msps adcs with an 8 - channel multiplexer input ? 1% high precision internal osci llator package options ? 32 - /48 - /64 - pin lqfp ? 32 - /48 - /64 - pin qfn ? 30 - pin wlcsp low - power consumption modes ? this series has six low - power consumption modes: ? sleep ? timer ? rtc ? stop ? deep standby rtc (selectable between keeping the value of ram and not) ? deep standby stop (selectable between keeping the value of ram and not)
document number: 002 - 00233 rev. *d page 2 of 109 s6e1c series ecosystem for cypress fm 0+ mcus cypress provides a wealth of data at www.cypress.com to help you to select the right mcu for your design, and to help you to quickly and effectively integrate the device int o your design. following is an abbreviated list for fm 0+ mcus: ? overview: product portfolio , p roduct roadmap ? product selectors: fm 0+ mcus ? application notes: cypress offers a large number of fm 0+ application notes covering a broad range of topics, from basic to advanced level. recommended application notes for getting started with fm 0+ family of mcus are: ? an2 10985 C fm 0+ getting started with fm0+ development : an210985 introduces you to the fm0+ family of 32 - bit general - purpose microcontrollers. the fm0+ family is based on the arm? cortex ? - m0+ processor core, ideal for ultra - low - power designs. this note provides an overview of hardware features and capabilities, firmware development, and the multitude of technical resources available to you. this application note uses the fm0+ s6e1b8 - serie s starter kit as an example. ? an203277 - fm 32 - bit microcontroller family hardware design considerations: this application note reviews several topics for designing a hardware system around fm0+, fm3, and fm4 family mcus. subjects include power system, res et, crystal, and other pin connections, and programming and debugging interfaces. ? an 205411 C fm 0+ iec60730 class b self - test library : this document covers how to use and implement the library functions provided. it will first show the requirement of iec60730 class b, and then explain how it can be implemented. at last an exampl e is given to show how to integrate test functions into a real system. ? an202487 - differences among fm0+, fm3, and fm4 32 - bit microcontrollers : highlights the peripheral differences in cypresss fm family mcus. it provides dedicated sections for each peripheral and contains lists, tables, and descriptions of peripheral feature and register differences. ? an204438 - how to setup flash security for fm0+, fm3 and fm4 families : this application note describes how to setup the flash security for fm 0+, fm 3 , and fm4 devices ? devel opment kits: ? fm0 - v48 - s6e1a1 arm? cortex? - m0+ fm0+ mcu evaluation board ? fm0 - 64l - s6e1c3 - arm? cortex? - m0+ mcu starter kit with usb and digital audio interface ? peripheral manuals
document number: 002 - 00233 rev. *d page 3 of 109 s6e1c series table of contents features ................................ ................................ ............... 1 1. block diagram ................................ ............................... 4 2. product lineup ................................ .............................. 5 2.1 package dependent features ................................ ... 6 2.2 packages ................................ ................................ ... 6 3. product features in detail ................................ ............ 7 4. pin assignment ................................ ........................... 10 5. list of pin functions ................................ ................... 17 6. i/o circuit type ................................ ............................ 26 7. handling precautions ................................ ................. 31 7.1 precautions for product design ............................... 31 7.2 precautions for package mounting .......................... 32 7.3 precautions for use environment ............................ 34 8. handling devices ................................ ........................ 35 9. memory map ................................ ................................ 3 8 10. pin status in each cpu state ................................ .... 41 11. electrical characteristics ................................ ........... 44 11.1 absolute maximum ratings ................................ ..... 44 11.2 recommended operating conditions ...................... 45 11.3 dc characteristics ................................ ................... 46 11.3.1 current rating ................................ .......................... 46 11.3.2 pin characteristics ................................ ................... 51 11.4 ac characteristics ................................ ................... 52 11.4.1 main clock input characteristics .............................. 52 11.4.2 sub clock input characteristics ............................... 53 11.4.3 built - in cr oscillation characteristi cs ...................... 54 11.4.4 operating conditions of main pll (in the case of using the main clock as the input clock of the pll) 55 11.4.5 operating conditions of main pll (in the case of using the built - in high - speed cr clock as the input clock of the main pll) ................................ ............. 55 11.4.6 reset input characteristics ................................ ...... 56 11.4.7 power - on reset timing ................................ ............ 56 11.4.8 base timer input timing ................................ .......... 57 11.4.9 csio/spi/uart timing ................................ ........... 58 11.4.10 external input timing ................................ ............ 75 11.4.11 i 2 c timing ................................ ............................. 76 11.4.12 i 2 s timing (mfs - i2s timing) ................................ 77 11.4.13 smart card interface characteristics .................... 79 11.4.14 sw - dp timing ................................ ...................... 80 11.5 12 - bit a/d converter ................................ ................ 81 11.6 usb characteristics ................................ ................ 84 11.7 low - voltage detection characteristics .................... 89 11.7.1 low - voltage detection reset ................................ ... 89 11.7.2 low - voltage detection interrupt ............................... 90 11.8 flash memory write/erase characteristics ............. 91 11.9 return time from low - power consumption mode .. 92 11.9.1 return factor: interrupt/wkup ................................ 92 11.9.2 return factor: reset ................................ ................ 94 12. ordering information ................................ ................... 96 13. acronyms ................................ ................................ ..... 97 14. package dimensions ................................ ................... 99 15. errata ................................ ................................ .......... 106 15.1 part numbers affected ................................ .......... 106 15.2 qualification status ................................ ................ 106 15 .3 errata summary ................................ ..................... 106 document history ................................ ........................... 108 sales, solutions, and legal information ....................... 109
document number: 002 - 00233 rev. *d page 4 of 109 s6e1c series 1. block diagram s w - d p n v i c f a s t g p i o m t b f l a s h i / f s e c u r i t y b i t b a n d w r a p p e r s y s t e m r o m t a b l e d u a l - t i m e r w a t c h d o g t i m e r ( s o f t w a r e ) c l o c k r e s e t g e n e r a t o r w a t c h d o g t i m e r ( h a r d w a r e ) w a t c h d o g t i m e r ( c v s ) d s t c 6 4 c h . a h b - a h b b r i d g e p h y m a i n o s c p l l s u b o s c c r 8 m h z c r 1 0 0 k h z s o u r c e c l o c k u n i t 0 1 2 - b i t a / d c o n v e r t e r l v d c t r l i r q - m o n i t o r w a t c h c o u n t e r r e a l - t i m e c l o c k m o d e - c t r l l o w - s p e e d c r p e r i p h e r a l c l o c k g a t i n g g p i o p i n - f u n c t i o n - c t r l p o w e r - o n l v d r e g u l a t o r s w c l k s w d i o b a s e t i m e r 1 6 - b i t 8 c h . 3 2 - b i t 4 c h . e x t e r n a l i n t e r r u p t c o n t r o l l e r 1 2 p i n ( m a x ) + n m i s m a r t c a r d i / f i n i t x x 0 x 1 x 0 a x 1 a c r o u t a v r h a n x x a d t g t i o a x t i o b x u d p 0 , u d m 0 u h c o n x 0 c r t c c o i n t x n m i x m d 0 , m d 1 p 0 x , p 1 x , : p e x s c k x s i n x s o t x s c s x m i 2 s c k x m i 2 s d i x m i 2 s d o x m i 2 s m c k x m i 2 s w s x i c 1 _ c l k x i c 1 _ v c c x i c 1 _ v p e n x i c 1 _ c i n x i c 1 _ d a t a x o n - c h i p s r a m 1 2 / 1 6 k b y t e o n - c h i p f l a s h 6 4 / 1 2 8 k b y t e m u l t i - f u n c t i o n s e r i a l i / f 6 c h . ( m a x ) a v r l c o r t e x - m 0 + c o r e a h b - a p b b r i d g e a p b 0 m u l t i - l a y e r a h b a h b - a p b b r i d g e : a p b 1 u s b 2 . 0 ( h o s t / d e v i c e ) c r c a c c e l a r a t o r d e e p s t a n d b y c t r l w k u p x
document number: 002 - 00233 rev. *d page 5 of 109 s6e1c series 2. product lineup memory size product name s6e1c 11 s6e1c31 s6e1c 12 s6e1c 32 on - chip flash memory 64 kbytes 128 kbytes on - chip s ram 12 kbytes 16 kbytes function function name s6e1c 1 s6e1c 3 cpu cortex - m0+ freq uency 40.8 mhz power supply voltage range 1.65 v to 3.6 v usb2.0 ( device /host) - 1 unit dstc 64 ch . base timer (pwc/reload timer/pwm/ppg) 8 ch . (max) dual timer 1 unit real - time clock 1 unit watch counter 1 unit crc accelerator yes watchdog timer 1 ch. (sw) + 1 ch. (hw) csv (clock super v isor) yes lvd (low - v oltage detect ion ) 2 ch. built - in cr high - speed 8 mhz ( typ ) low - speed 100 khz ( typ ) debug function sw - dp unique id yes note: ? because of package pin limitations , not all function s within the device can be brought out to external pins. you must carefully work out the pin allocation needed for your design . you must use the port relocate funct ion of the i/o port according to your function use. ? see " 11 . electrical characteristics 11.4 ac characteristics 11.4.3 built - in cr oscillation characteristics " for accuracy of built - in cr.
document number: 002 - 00233 rev. *d page 6 of 109 s6e1c series 2.1 package dependent features feature package 30 wlcsp 32 lqfp 32 qfn 48 lqfp 48 qfn 64 lqfp 64 qfn pin count 30 32 48 64 multi - function serial interface (uart/csio/i 2 c /i 2 s ) 4 ch. (max) ch.0/1/3 without fifo ch. 6 with fifo 4 ch. (max) ch.0/1/3 without fifo ch. 6 with fifo 6 ch. (max) ch.0/1/3 without fifo ch.4/6/7 with fifo 6 ch. (max) ch.0/1/3 without fifo ch.4/6/7 with fifo i 2 s: no i 2 s: 1 ch (max) ch. 6 with fifo i 2 s: 2 ch (max) ch. 4/6 with fifo external interrupt 7 pins (max), nmi x 1 9 pins (max), nmi x 1 12 pins (max) , nmi x 1 i/o port 24 pins (max) 38 pins (max) 54 pins (max) 12 - bit a/d converter 6 ch . ( 1 unit) 8 ch . ( 1 unit) 8 ch. (1 unit) smart card interface no 1 ch (max) hdmi - cec/ remote control receiver 1 c h.( m ax) ch.1 2 ch (max) ch.0/1 2.2 packages package suffix package b0a c0a d0a lqfp: lqb032 (0.80 mm pitch) ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? : available note: ? see " 14 . package dimensions " for detailed information on each package.
document number: 002 - 00233 rev. *d page 7 of 109 s6e1c series 3. product fea tures in detail 32 - bit arm cortex - m0+ core ? maximum operating frequency: 40 .8 mhz ? nested vectored interrupt controller (nvic): 1 nmi (non - maskable interrupt) and 24 peripheral interrupt with 4 selectable interrupt priority levels ? 24 - bit system timer (sys t ick): system timer for os task management bit band operation compatible with cortex - m3 bit band operation. on - chip memor y ? flash memory ? up to 128 kbyte s ? read cycle: 0 wait - cycle ? security function for code protection ? sram th e on - chip sram of this series has o ne independent sram . ? up to 16 kbytes ? 4kbytes: can retain value in d eep standby mode usb interface usb interface is composed of device and host with main pll, usb clock can be generated by multiplication of main clock. ? usb device ? usb 2.0 full - speed supported ? max 6 endpoint supported ? endpoint 0 is control transfer ? endpoint 1, 2 can be selected bulk - transfer, interrupt - transfer or isochronous - transfer ? endpoint 3 to 5 can select bulk - transfer or interrupt - transfer ? endpoint 1 to 5 comprise double buffer ? the size of each endpoint is according to the follows ? endpoint 0, 2 to 5 : 64 bytes ? endpoint 1 : 256 bytes ? usb host ? usb 2.0 full/low - speed supported ? bulk - transfer, interrupt - transfer and isochronous - transfer support ? usb device connected/di sconnected automatically detect ? in/out token handshake packet automatically ? max 256 - byte packet - length supported ? wake - up function supported multi - function s erial i nterface (max 6 channels ) ? 3 channels with 64byte fifo (ch.4, 6 and 7), 3 channels without fifo (ch.0, 1 and 3) ? the operation mode of each channel can be selected from one of the following. ? uart ? csio (csio is known to many customers as spi) ? i 2 c ? uart ? full duplex double buffer ? parity can be enabled or disable d . ? built - in dedicated baud rate genera tor ? external clock available as a serial clock ? hardware flow control* : automatically control the transmission by cts/rts (only ch.4) * : s6e1c32b0a/s6e1c31b0a and s6e1c32c0a/s6e1c31c0a do not support hardware flow control. ? various error detection function s (parity errors, framing errors, and overrun errors) ? csio (also known as spi) ? full duplex double buffer ? built - in dedicated baud rate generator ? overrun error detection function ? serial chip select function (ch 1 and ch6 only) ? data length : 5 to 16 bit s ? i 2 c ? standard - mode (max : 100 kbps) supported / fast - mode (max 400 kbps) supported . ? i 2 s (mfs - i2s) ? using csio (max 2 ch: ch.4, ch.6) and i 2 s clock generator ? supports two transfer protocol ? i 2 s ? msb - justified ? master mode only descriptor system data transfer contr oller ( dstc ) (64 channels ) ? the dstc can transfer data at high - speed without going via the cpu. the dstc adopts the descriptor system and, following the specified contents of the descriptor that has already been constructed on the memory, can access directl y the memory / peripheral device and performs the data transfer operation. ? it supports the software activation, the hardware activation , and the chain activation functions
document number: 002 - 00233 rev. *d page 8 of 109 s6e1c series a/d converter (max : 8 channels ) ? 12 - bit a/d converter ? successive a pproximation type ? conversion time: 2.0 s @ 2.7 v to 3.6 v ? priority conversion available ( 2 levels of priority) ? scan conversion mode ? built - in fifo for conversion data storage (for scan conversion: 16 steps, for p riority conversion: 4 steps) base timer (max : 8 channels ) the operation mode of each channel can be selected from one of the following. ? 16 - bit pwm timer ? 16 - bit ppg timer ? 16/32 - bit reload timer ? 16/32 - bit pwc timer general - purpose i/o port this series can use its pin as a general - purpose i/o port when it is not us ed for an external bus or a peripheral function. all ports can be set to fast general - purpose i/o ports or slow general - purpose i/o ports. in addition, this series has a port relocate function that can set to which i/o port a peripheral function ca n be all ocated. ? all ports are fast gpio which can be accessed by 1cycle ? capable of controlling the pull - up of each pin ? capable of reading pin level directly ? p ort relocate function ? up to 54 fast general - purpose i/o p orts @ 64 - pin p ackage ? certain ports are 5 v tolerant . see 5 . list of pin functions and 6 . i /o circuit type for the corresponding pins. dual timer (32 - /16 - bit down counter) the dual timer consists of two programmable 32 - /16 - bit down counters. the operation mode of each timer channel can be selected from one of the following. ? free - run ning mode ? periodic mode (= reload mode ) ? one - shot mode real - time c lock the real - time c lock count s y ear/ m onth/ d ay/ h our/ m inute/ s econd/ d ay of the week from year 0 0 to year 99. ? the rtc can generate an interrupt at a specific time (y ear/ m onth/ d ay/ h our/ m inute ) and can also generate an interrupt in a specific year, in a specific month, on a specific day, at a specific ho ur or at a specific minute. ? it has a timer interrupt function generating an interrupt upon a specific time or at specific intervals. ? it can keep counting while rewriting the time. ? it can count leap years automatically. watch counter the watch c ounter wake s up the microcontroller from the low power consumption mode. the clock source can be selected from the main clock, the sub clock, the built - in high - speed cr clock or the built - in low - speed cr clock. interval timer: up to 64 s (s ub c lock : 32.768 khz ) external interrupt controller unit ? up to 12 external i nterrupt input pins ? n on - m askable interrupt (nmi) input pin : 1 watchdog t imer (2 channels ) the watchdog timer generate s an interrupt or a reset when the counter reaches a time - out value. this series con sists of two different watchdogs, h ardware watchdog and s oftware watchdog. the h ardware watchdog timer is clocked by the built - in low - speed cr oscillator. therefore , the h ardware watchdog is active in any low - power consumption modes except rtc, stop, deep standby rtc and deep standby stop mode. crc (cyclic redundancy check) accelerator the crc accelerator calculates the crc which has a heavy software processing load, and achieves a reduction of the integrity check processing load for reception data and stor age. ? ccitt crc16 and ieee - 802.3 crc32 are supported. ? ccitt crc16 generator polynomial: 0x1021 ? ieee - 802.3 crc32 generator polynomial: 0x04c11db7 hdmi - cec/remote control receiver (up to 2 channels) ? hdmi - cec transmitter ? header block automatic transmission by judging signal free ? generating status interrupt by detecting arbitration lost ? generating start, eom, ack automatically to output cec transmission by setting 1 byte data ? generating transmission status interrupt when transmitting 1 block (1 byte data and eom /ack) ? hdmi - cec receiver ? automatic ack reply function available ? line error detection function available ? remote control receiver ? 4 bytes reception buffer ? repeat code detection function available smart card interface (max 1 channel) ? compliant with iso7816 - 3 specification ? card reader only/b class card only ? available protocols ? transmitter: 8e2, 8o2, 8n2 ? receiver: 8e1, 8o1, 8n2, 8n1, 9n1 ? inverse mode ? tx/rx fifo integrated (rx: 16 - bytes, tx:16 - bytes)
document number: 002 - 00233 rev. *d page 9 of 109 s6e1c series clock and reset ? clocks a clock can be selected from five clock sources ( two external oscillator s, two built - in cr oscillator , and m ain pll). ? main c lock: 8 mhz to 4 8 mhz ? sub c lock : 32.768 khz ? built - in high - speed cr c lock : 8 mhz ? built - in low - speed cr c lock : 100 khz ? main pll c lock 8mhz to 16mhz (input), 75mhz to 150mh z (output) ? resets ? reset request from the initx pin ? power on reset ? software reset ? watchdog timer reset ? low - voltage detection reset ? clock s uper v isor reset clock super v isor (csv) the clock supervisor monitors the failure of external clocks with a clock generated by a built - in cr oscillator. ? if an e xternal clock failure (clock stop) is detected, a reset is asserted. ? if an e xternal frequency anomaly is detected, an interrupt or a reset is asserted. low - voltage detector (lvd) this s eries monitors the voltag e on the vcc pin with a 2 - stage mechanism. when the voltage falls below a designated voltage, the low - voltage detector generates an interrupt or a reset. ? lvd1: monitor v cc and error reporting via an interrupt ? lvd2: auto - reset operation low power consumpti on m ode this series has six low power consumption modes. ? sleep ? timer ? rtc ? stop ? deep standby rtc (selectable between keeping the value of ram and not) ? deep standby stop (selectable between keeping the value of ram and not) peripheral clock gating the system can reduce the current consumption of the total system with gating the operation clocks of peripheral functions not used. debug ? serial wire debug port (sw - dp) ? micro trace buffer (mtb) unique id a 41 - bit unique value of the device has been set. power supply ? wide voltage range : vcc = 1.65 v to 3.6 v vcc = 3.0v to 3.6v (when usb is used)
document number: 002 - 00233 rev. *d page 10 of 109 s6e1c series 4. pin assignment lqd064 (top view)
document number: 002 - 00233 rev. *d page 11 of 109 s6e1c series wns064 (top view)
document number: 002 - 00233 rev. *d page 12 of 109 s6e1c series lqa048 (top view)
document number: 002 - 00233 rev. *d page 13 of 109 s6e1c series wny048 (top view)
document number: 002 - 00233 rev. *d page 14 of 109 s6e1c series lqb032 (top view)
document number: 002 - 00233 rev. *d page 15 of 109 s6e1c series wnu032 (top view)
document number: 002 - 00233 rev. *d page 16 of 109 s6e1c series u 4m030 ( bottom view ) a 1 2 3 4 5 b c d e f p13 p21 p80 p10 x1 vcc p03 p05 p81 p0f p31 x0 p52 p51 p32 p33 p12 p22 p01 p60 vss c p11 p23 x0a x1a avrh md0 p50 initx
document number: 002 - 00233 rev. *d page 17 of 109 s6e1c series 5. list of pin functions list of pin numbers the number after the underscore ("_") in a pin name such as xxx_1 and xxx_2 indic ates the relocated port number. the channel on such pin has multiple functions, each of which has its own pin name. use the e xtended p ort f unction r egister (epfr) to select the pin to be used . pin n o. pin name alternate functions i/o c ircuit t ype pin s tate t ype lqfp - 64 qfn - 64 lqfp - 48 qfn - 48 lqfp - 32 qfn - 32 wlcsp - 30 1 1 2 a1 p50 sin3_1 int00_0 d k 2 2 3 b1 p51 sot3_1 int01_0 d k 3 3 4 c1 p52 sck3_1 int02_0 d k 4 4 - - p53 tioa1_2 int07_2 d k 5 5 - - p30 scs60_1 tiob0_1 int03_2 mi2sws6_1 d k 6 6 - - p31 sck6_1 int04_2 mi2sck6_1 h k - - 5 e2 p31 sck6_1 int04_2 h k 7 7 - - p32 sot6_1 tiob2_1 int05_2 mi2sdo6_1 h k - - 6 d1 p32 sot6_1 tiob2_1 int05_2 h k 8 8 - - p33 adtg_6 sin6_1 int04_0 mi2sdi6_1 h k - - 7 e1 p33 adtg_6 sin6_1 int04_0 h k 9 - - - p34 scs61_1 tiob4_1 mi2smck6_1 d k - 9 - - p34 scs61_1 mi2smck6_1 d k 10 - - - p35 scs62_1 tiob5_1 int08_1 d k 11 - - - p3a tioa0_1 int03_0 rtcco_2 subout_2 ic1_cin_0 d k - 10 - - p3a tioa0_1 int03_0 rtcco_2 subout_2 d k 12 - - - p3b tioa1_1 ic1_data_0 d k - 11 - - p3b tioa1_1 d k 13 - - - p3c tioa2_1 ic1_rst_0 d k - 12 - - p3c tioa2_1 d k 14 - - - p3d tioa3_1 ic1_vpen_0 d k 15 - - - p3e tioa4_1 ic1_vcc_0 d k 16 - - - p3f tioa5_1 ic1_clk_0 d k 17 13 8 f1 md0 i f 18 14 9 f2 pe2 x0 a a 19 15 10 e3 pe3 x1 a b 20 - - - p40 tioa0_0 int12_1 d k 21 - - - p41 tioa1_0 int13_1 d k 22 - - - p42 tioa2_0 d k 23 - - - p43 adtg_7 tioa3_0 d k 24 - - - p4c sck7_1 tiob3_0 d k - 16 - - p4c sck7_1 d k 25 17 - - p4d sot7_1 d k 26 18 - - p4e sin7_1 int06_2 d k 27 19 11 f3 vcc - - 28 20 12 f4 c - - 29 21 13 e4 vss - - 30 22 14 d5 p46 x0a c c
document number: 002 - 00233 rev. *d page 18 of 109 s6e1c series pin n o. pin name alternate functions i/o c ircuit t ype pin s tate t ype lqfp - 64 qfn - 64 lqfp - 48 qfn - 48 lqfp - 32 qfn - 32 wlcsp - 30 31 23 15 e5 p47 x1a c d 32 24 16 f5 initx b e 33 25 17 d4 p60 tioa2_2 int15_1 cec1_0 h k 34 - - - p1e rts4_1 mi2smck4_1 d k 35 - - - p1d cts4_1 mi2sws4_1 d k 36 - - - p1c sck4_1 mi2sck4_1 d k 37 - - - p1b sot4_1 mi2sdo4_1 d k - 26 - - p1b sot4_1 d k 38 - - - p1a sin4_1 int05_1 cec0_0 mi2sdi4_1 h k - 27 - - p1a sin4_1 int05_1 cec0_0 h k 39 - - - p1f adtg_5 d k 40 28 18 d3 p10 an00 f j 41 29 19 c5 p11 an01 sin1_1 int02_1 wkup1 g j 42 30 20 c4 p12 an02 sot1_1 f j 43 31 21 c3 p13 an03 sck1_1 rtcco_1 subout_1 f j 44 32 - - p14 an04 sin0_1 scs10_1 int03_1 f j 45 33 - - p15 an05 sot0_1 scs11_1 f j 46 34 22 b5 p23 an06 sck0_0 tioa7_1 f j 47 35 23 b4 p22 an07 tiob7_1 f j 48 36 24 a5 vcc - - 49 37 - - avrh 1 - - 50 38 25 - avrl - - 51 39 26 b3 p21 int06_1 wkup2 e k 52 - - - p00 wkup4 e k 53 40 27 a4 p01 swclk sot0_0 d k 54 - - - p02 wkup5 e k 55 41 28 c2 p03 swdio sin0_0 tiob7_0 d k 56 42 29 b2 p05 md1 tioa5_2 int00_1 wkup3 e k 57 43 - - vcc - - 58 44 30 a3 p80 udm0 j g 59 45 31 a2 p81 udp0 j g 60 46 32 - vss - - 61 47 - - p61 uhconx0 tiob2_2 h k 62 - - - p0b tiob6_1 wkup6 e k 63 - - - p0c tioa6_1 wkup7 e k 64 48 1 d2 p0f nmix wkup0 rtcco_0 subout_0 crout_1 e i 1 in a 32 - pin package, the avrh pin is internally connected to the v cc pin.
document number: 002 - 00233 rev. *d page 19 of 109 s6e1c series list of pin functions the number after the underscore ("_") in a function name such as xxx_1 and xxx_2 indicates one of the relocate options to route that function to a different pin. use the extended port function register (epfr) to disable or select the desired relocate op tion. pin f unction pin n ame function d escription pin n o. lqfp - 64 qfn - 64 lqfp - 48 qfn - 48 lqfp - 32 qfn - 32 wlcsp - 30 adc adtg_5 a/d converter external trigger input pin 39 - - - adtg_6 8 8 7 e1 adtg_7 23 - - - adc an00 a/d converter analog input pin. anxx describes adc ch.xx. 40 28 18 d3 an01 41 29 19 c5 an02 42 30 20 c4 an03 43 31 21 c3 an04 44 32 - - an05 45 33 - - an06 46 34 22 b5 an07 47 35 23 b4 base timer 0 tioa0_0 base timer ch.0 tioa pin 20 - - - tioa0_1 11 10 - - tiob0_1 base timer ch.0 tiob pin 5 5 - - base timer 1 tioa1_0 base timer ch.1 tioa pin 21 - - - tioa1_1 12 11 - - tioa1_2 4 4 - - base timer 2 tioa2_0 base timer ch.2 tioa pin 22 - - - tioa2_1 13 12 - - tioa2_2 33 25 17 d4 tiob2_1 base timer ch.2 tiob pin 7 7 6 d1 tiob2_2 61 47 - - base timer 3 tioa3_0 base timer ch.3 tioa pin 23 - - - tioa3_1 14 - - - tiob3_0 base timer ch.3 tiob pin 24 - - - base timer 4 tioa4_1 base timer ch.4 tioa pin 15 - - - tiob4_1 base timer ch.4 tiob pin 9 - - - base timer 5 tioa5_1 base timer ch.5 tioa pin 16 - - - tioa5_2 56 42 29 b2 tiob5_1 base timer ch.5 tiob pin 10 - - - base timer 6 tioa6_1 base timer ch.6 tioa pin 63 - - - tiob6_1 base timer ch.6 tiob pin 62 - - - base timer 7 tioa7_1 base timer ch.7 tioa pin 46 34 22 b5 tiob7_0 base timer ch.7 tiob pin 55 41 28 c2 tiob7_1 47 35 23 b4 debugger swclk serial wire debug interface clock input pin 53 40 27 a4 swdio serial wire debug interface data input / output pin 55 41 28 c2
document number: 002 - 00233 rev. *d page 20 of 109 s6e1c series pin f unction pin n ame function d escription pin n o. lqfp - 64 qfn - 64 lqfp - 48 qfn - 48 lqfp - 32 qfn - 32 wlcsp - 30 external interrupt int00_0 external interrupt request 00 input pin 1 1 2 a1 int00_1 56 42 29 b2 int01_0 external interrupt request 01 input pin 2 2 3 b1 int02_0 external interrupt request 02 input pin 3 3 4 c1 int02_1 41 29 19 c5 int03_0 external interrupt request 03 input pin 11 10 - - int03_1 44 32 - - int03_2 5 5 - - int04_0 external interrupt request 04 input pin 8 8 7 e1 int04_2 6 6 5 e2 int05_1 external interrupt request 05 input pin 38 27 - - int05_2 7 7 6 d1 int06_1 external interrupt request 06 input pin 51 39 26 b3 int06_2 26 18 - - int07_2 external interrupt request 07 input pin 4 4 - - int08_1 external interrupt request 08 input pin 10 - - - int12_1 external interrupt request 12 input pin 20 - - - int13_1 external interrupt request 13 input pin 21 - - - int15_1 external interrupt request 15 input pin 33 25 17 d4 nmix non - maskable interrupt input pin 64 48 1 d2 gpio p00 general - purpose i/o port 0 52 - - - p01 53 40 27 a4 p02 54 - - - p03 55 41 28 c2 p05 56 42 29 b2 p0b 62 - - - p0c 63 - - - p0f 64 48 1 d2 gpio p10 general - purpose i/o port 1 40 28 18 d3 p11 41 29 19 c5 p12 42 30 20 c4 p13 43 31 21 c3 p14 44 32 - - p15 45 33 - - p1a 38 27 - - p1b 37 26 - p1c 36 - - - p1d 35 - - - p1e 34 - - - p1f 39 - - - gpio p21 general - purpose i/o port 2 51 39 26 b3 p22 47 35 23 b4 p23 46 34 22 b5
document number: 002 - 00233 rev. *d page 21 of 109 s6e1c series pin f unction pin n ame function d escription pin n o. lqfp - 64 qfn - 64 lqfp - 48 qfn - 48 lqfp - 32 qfn - 32 wlcsp - 30 gpio p30 general - purpose i/o port 3 5 5 - - p31 6 6 5 e2 p32 7 7 6 d1 p33 8 8 7 e1 p34 9 9 - - p35 10 - - - p3a 11 10 - - p3b 12 11 - - p3c 13 12 - - p3d 14 - - - p3e 15 - - - p3f 16 - - - gpio p40 general - purpose i/o port 4 20 - - - p41 21 - - - p42 22 - - - p43 23 - - - p46 30 22 14 d5 p47 31 23 15 e5 p4c 24 16 - - p4d 25 17 - - p4e 26 18 - - gpio p50 general - purpose i/o port 5 1 1 2 a1 p51 2 2 3 b1 p52 3 3 4 c1 p53 4 4 - - gpio p60 general - purpose i/o port 6 33 25 17 d4 p61 61 47 - - gpio p80 general - purpose i/o port 8 58 44 30 a3 p81 59 45 31 a2 gpio pe2 general - purpose i/o port e 18 14 9 f2 pe3 19 15 10 e3 multi - function serial 0 sin0_0 multi - function serial interface ch.0 input pin 55 41 28 c2 sin0_1 44 32 - - sot0_0 (sda0_0) multi - function serial interface ch.0 output pin. this pin operates as sot0 when used as a uart/csio/lin pin (operation mode 0 to 3) and as sda0 when used as an i 2 c pin (operation mode 4). 53 40 27 a4 sot0_1 (sda0_1) 45 33 - - sck0_0 (scl0_0) multi - function serial interface ch.0 clock i/o pin. this pin operates as sck0 when used as a csio pin (operation mode 2) and as scl0 when used as an i 2 c pin (operation mode 4). 46 34 22 b5
document number: 002 - 00233 rev. *d page 22 of 109 s6e1c series pin f unction pin n ame function d escription pin n o. lqfp - 64 qfn - 64 lqfp - 48 qfn - 48 lqfp - 32 qfn - 32 wlcsp - 30 multi - function serial 1 sin1_1 multi - function serial interface ch.1 input pin 41 29 19 c5 sot1_1 (sda1_1) multi - function serial interface ch.1 output pin. this pin operates as sot1 when used as a uart/csio/lin pin (operation mode 0 to 3) and as sda1 when used as an i 2 c pin (operation mode 4). 42 30 20 c4 sck1_1 (scl1_1) multi - function serial interface ch.1 clock i/o pin. this pin operates as sck1 when used as a csio pin (operation mode 2) and as scl1 when used as an i 2 c pin (operation mode 4). 43 31 21 c3 scs10_1 multi - function serial interface ch.1 serial chip select 0 input/output pin. 44 32 - - scs11_1 multi - function serial interface ch.1 serial chip select 1 output pin. 45 33 - - multi - function serial 3 sin3_1 multi - function serial interface ch.3 input pin 1 1 2 a1 sot3_1 (sda3_1) multi - function serial interface ch.3 output pin. this pin operates as sot3 when used as a uart/csio/lin pin (operation mode 0 to 3) and as sda3 when used as an i 2 c pin (operation mode 4). 2 2 3 b1 sck3_1 (scl3_1) multi - function serial interface ch.3 clock i/o pin. this pin operates as sck3 when used as a csio (operation mode 2) and as scl3 when used as an i 2 c pin (operation mode 4). 3 3 4 c1 multi - function serial 4 sin4_1 multi - function serial interface ch.4 input pin 38 27 - - sot4_1 (sda4_1) multi - function serial interface ch.4 output pin. this pin operates as sot4 when used as a uart/csio/lin pin (operation mode 0 to 3) and as sda4 when used as an i 2 c pin (operation mode 4). 37 26 - - sck4_1 (scl4_1) multi - function serial interface ch.4 clock i/o pin. this pin operates as sck4 when used as a csio (operation mode 2) and as scl4 when used as an i 2 c pin (operation mode 4). 36 - - - cts4_1 multi - function serial interface ch4 cts input pin 35 - - - rts4_1 multi - function serial interface ch4 rts output pin 34 - - -
document number: 002 - 00233 rev. *d page 23 of 109 s6e1c series pin f unction pin n ame function d escription pin n o. lqfp - 64 qfn - 64 lqfp - 48 qfn - 48 lqfp - 32 qfn - 32 wlcsp - 30 multi - function serial 6 sin6_1 multi - function serial interface ch.6 input pin 8 8 7 e1 sot6_1 (sda6_1) multi - function serial interface ch.6 output pin. this pin operates as sot6 when used as a uart/csio/lin pin (operation mode 0 to 3) and as sda6 when used as an i 2 c pin (operation mode 4). 7 7 6 d1 sck6_1 (scl6_1) multi - function serial interface ch.6 clock i/o pin. this pin operates as sck6 when used as a csio (operation mode 2) and as scl6 when used as an i 2 c pin (operation mode 4). 6 6 5 e2 scs60_1 multi - function serial interface ch.6 serial chip select 0 input/output pin. 5 5 - - scs61_1 multi - function serial interface ch.6 serial chip select 1 output pin. 9 9 - - scs62_1 multi - function serial interface ch.6 serial chip select 2 output pin. 10 - - - multi - function serial 7 sin7_1 multi - function serial interface ch.7 input pin 26 18 - - sot7_1 (sda7_1) multi - function serial interface ch.7 output pin. this pin operates as sot7 when used as a uart/csio/lin pin (operation mode 0 to 3) and as sda7 when used as an i 2 c pin (operation mode 4). 25 17 - - sck7_1 (scl7_1) multi - function serial interface ch.7 clock i/o pin. this pin operates as sck7 when used as a csio (operation mode 2) and as scl7 when used as an i 2 c pin (operation mode 4). 24 16 - -
document number: 002 - 00233 rev. *d page 24 of 109 s6e1c series pin f unction pin n ame function d escription pin n o. lqfp - 64 qfn - 64 lqfp - 48 qfn - 48 lqfp - 32 qfn - 32 wlcsp - 30 i2s(mfs) mi2sdi4_1 i 2 s serial data input pin (operation mode 2). 38 - - - mi2sdo4_1 i 2 s serial data output pin (operation mode 2). 37 - - - mi2sck4_1 i 2 s serial clock output pin (operation mode 2). 36 - - - mi2sws4_1 i 2 s word select output pin (operation mode 2). 35 - - - mi2smck4_1 i 2 s master clock input /output pin (operation mode 2). 34 - - - mi2sdi6_1 i 2 s serial data input pin (operation mode 2). 8 8 - - mi2sdo6_1 i 2 s serial data output pin (operation mode 2). 7 7 - - mi2sck6_1 i 2 s serial clock output pin (operation mode 2). 6 6 - - mi2sws6_1 i 2 s word select output pin (operation mode 2). 5 5 - - mi2smck6_1 i 2 s master clock input /output pin (operation mode 2). 9 9 - - smart card interface ic1_cin_0 smart card insert detection output pin 11 - - - ic1_clk_0 smart card serial interface clock output pin 16 - - - ic1_data_0 smart card serial interface data input pin 12 - - - ic1_rst_0 smart card reset output pin 13 - - - ic1_vcc_0 smart card power enable output pin 15 - - - ic1_vpen_0 smart card programming output pin 14 - - - usb udm0 usb function/host d C pin 58 44 30 a3 udp0 usb function/host d + pin 59 45 31 a2 uhconx0 usb external pull - up control pin 61 47 - - real - time clock rtcco_0 0.5 seconds pulse output pin of real - time clock 64 48 1 d2 rtcco_1 43 31 21 c3 rtcco_2 11 10 - - subout_0 sub clock output pin 64 48 1 d2 subout_1 43 31 21 c3 subout_2 11 10 - - hdmi - cec/re mote control reception cec0_0 hdmi - cec/remote control reception ch.0 input/output pin 38 27 - - cec1_0 hdmi - cec/remote control reception ch.1 input/output pin 33 25 17 d4
document number: 002 - 00233 rev. *d page 25 of 109 s6e1c series pin f unction pin n ame function d escription pin n o. lqfp - 64 qfn - 64 lqfp - 48 qfn - 48 lqfp - 32 qfn - 32 wlcsp - 30 low power consumption mode wkup0 deep standby mode return signal input pin 0 64 48 1 d2 wkup1 deep standby mode return signal input pin 1 41 29 19 c5 wkup2 deep standby mode return signal input pin 2 51 39 26 b3 wkup3 deep standby mode return signal input pin 3 56 42 29 b2 wkup4 deep standby mode return signal input pin 4 52 - - - wkup5 deep standby mode return signal input pin 5 54 - - - wkup6 deep standby mode return signal input pin 6 62 - - - wkup7 deep standby mode return signal input pin 7 63 - - - reset initx external reset input pin. a reset is valid when initx="l". 32 24 16 f5 mode md0 mode 0 pin. during normal operation, input md0="l". during serial programming to flash memory, input md0="h". 17 13 8 f1 md1 mode 1 pin. during normal operation, input is not needed. during serial programming to flash memory, md1 = "l" must be input. 56 42 29 b2 clock x0 main clock (oscillation) input pin 18 14 9 f2 x0a sub clock (oscillation) input pin 30 22 14 d5 x1 main clock (oscillation) i/o pin 19 15 10 e3 x1a sub clock (oscillation) i/o pin 31 23 15 e5 crout_1 built - in high - speed cr oscillation clock output port 64 48 1 d2 power vcc power supply pin 27 19 11 f3 vcc 48 36 24 a5 vcc 57 43 - - gnd vss gnd pin 29 21 13 e4 vss 60 46 32 - analog reference avrh 2 a/d converter analog reference voltage input pin 49 37 - - avrl a/d converter analog reference voltage input pin 50 38 25 - c pin c power supply stabilization capacitance pin 28 20 12 f4 2 in case of 32 - pin package, avrh pin is internally connected to the v cc pin.
document number: 002 - 00233 rev. *d page 26 of 109 s6e1c series 6. i /o circuit type type circuit remarks a it is possible to select the main oscillation / gpio function when the main oscillation is selected. ? oscillation feedback resistor approximately 1 m ? with standby mode control when the gpio is selected. ? cmos level output. ? cmos level hysteresis input ? with pull - up resistor control ? with standby mode control ? pull - up resistor approximately 33 k ? i oh = - 4 ma, i ol = 4 ma b cmos level hysteresis input pull - up resistor approximately 33 k p - c h p - c h n - c h d i g i t a l o u t p u t d i g i t a l o u t p u t d i g i t a l i n p u t s t a n d b y m o d e c o n t r o l c l o c k i n p u t s t a n d b y m o d e c o n t r o l p - c h p - c h n - c h d i g i t a l o u t p u t d i g i t a l o u t p u t d i g i t a l i n p u t s t a n d b y m o d e c o n t r o l p u l l - u p r e s i s t o r c o n t r o l x 1 x 0 r r p u l l - u p r e s i s t o r c o n t r o l d i g i t a l i n p u t p u l l - u p r e s i s t o r
document number: 002 - 00233 rev. *d page 27 of 109 s6e1c series type circuit remarks c it is possible to select the sub oscillation / gpio function when the sub oscillation is selected. ? oscil lation feedback resistor approximately 5 m ? with standby mode control when the gpio is selected. ? cmos level output. ? cmos level hysteresis input ? with pull - up resistor control ? with standby mode control ? pull - up resistor approximately 33 k i oh = - 4 ma, i ol = 4 ma p - c h p - c h n - c h p - c h p - c h n - c h x 1 a x 0 a r r d i g i t a l o u t p u t d i g i t a l o u t p u t d i g i t a l i n p u t s t a n d b y m o d e c o n t r o l c l o c k i n p u t s t a n d b y m o d e c o n t r o l d i g i t a l o u t p u t d i g i t a l o u t p u t d i g i t a l i n p u t s t a n d b y m o d e c o n t r o l p u l l - u p r e s i s t o r c o n t r o l p u l l - u p r e s i s t o r c o n t r o l
document number: 002 - 00233 rev. *d page 28 of 109 s6e1c series type circuit remarks d ? cmos level output ? cmos level hysteresis input ? with pull - up resistor control ? with standby mode control ? pull - up resistor approximately 33 k ? i oh = - 4ma, i ol = 4 ma ? when this pin is used as an i 2 c pin, the digital output p - ch transistor is always off e ? cmos level output ? cmos level hysteresis input ? with pull - up resistor control ? with standby mode control ? pull - up resistor approximately 33 k ? i oh = - 4 ma, i ol = 4 ma ? when this pin is used as an i 2 c pin, the digital output p - ch transistor is always off p - c h p - c h n - c h r d i g i t a l o u t p u t d i g i t a l o u t p u t d i g i t a l i n p u t s t a n d b y m o d e c o n t r o l p u l l - u p r e s i s t o r c o n t r o l p - c h p - c h n - c h r d i g i t a l o u t p u t d i g i t a l o u t p u t d i g i t a l i n p u t s t a n d b y m o d e c o n t r o l p u l l - u p r e s i s t o r c o n t r o l w a k e u p r e q u e s t w a k e u p c o n t r o l
document number: 002 - 00233 rev. *d page 29 of 10 9 s6e1c series type circuit remarks f ? cmos level output ? cmos level hysteresis input ? with input control ? analog input ? with pull - up resistor control ? with standby mode control ? pull - up resistor approximately 33 k ? i oh = - 4 ma, i ol = 4 ma ? when this pin is used as an i 2 c pin, the digital output p - ch transistor is always off g ? cmos level output ? cmos level hysteresis input ? with input control ? analog input ? with pull - up resistor control ? with standby mode control ? pull - up resistor : approximately 33 k ? i oh = - 4 ma, i ol = 4 ma ? when this pin is used as an i 2 c pin, the digital output p - ch transistor is always off p - c h p - c h n - c h a n a l o g i n p u t r i n p u t c o n t r o l d i g i t a l o u t p u t d i g i t a l o u t p u t d i g i t a l i n p u t s t a n d b y m o d e c o n t r o l p u l l - u p r e s i s t o r c o n t r o l p - c h p - c h n - c h a n a l o g i n p u t r i n p u t c o n t r o l d i g i t a l o u t p u t d i g i t a l o u t p u t d i g i t a l i n p u t s t a n d b y m o d e c o n t r o l p u l l - u p r e s i s t o r c o n t r o l w a k e u p r e q u e s t w a k e u p c o n t r o l
document number: 002 - 00233 rev. *d page 30 of 109 s6e1c series type circuit remarks h ? cmos level output ? cmos level hysteresis input ? 5v tolerant ? with pull - up resistor control ? with standby mode control ? pull - up resistor approximately 33 k ? i oh = - 4 ma, i ol = 4 ma ? available to control pzr registers ? when this pin is used as an i 2 c pin, the digital output p - ch transistor is always off i ? cmos level hysteresis input j it is possible to select the usb i/o / gpio function. when the usb i/o is selected. ? full - speed, low - speed control when the gpio is selected. ? cmos level output ? cmos level hysteresis input ? with standby mode control p - c h p - c h n - c h r d i g i t a l o u t p u t d i g i t a l o u t p u t d i g i t a l i n p u t s t a n d b y m o d e c o n t r o l p u l l - u p r e s i s t o r c o n t r o l m o d e i n p u t d i f f e r e n t i a l d i f f e r e n t i a l i n p u t u d p i n p u t u d m i n p u t u s b / g p i o s e l e c t g p i o d i g i t a l i n p u t g p i o d i g i t a l i n p u t g p i o d i g i t a l i n p u t c i r c u i t c o n t r o l g p i o d i g i t a l i n p u t / o u t p u t d i r e c t i o n g p i o d i g i t a l i n p u t u s b d i g i t a l i n p u t / o u t p u t d i r e c t i o n u d m o u t p u t u d p o u t p u t u s b f u l l - s p e e d / l o w - s p e e d c o n t r o l g p i o d i g i t a l i n p u t c i r c u i t c o n t r o l g p i o d i g i t a l i n p u t / o u t p u t d i r e c t i o n g p i o d i g i t a l o u t p u t u d p 0 / p 8 1 u d m 0 / p 8 0
document number: 002 - 00233 rev. *d page 31 of 109 s6e1c series 7. handling precautions any semiconductor devices have inherently a certain rate of failure. the possibility of failure is greatly affected by the co nditions in which they are used (circuit conditions, environmental conditions, etc.). this page describes precautions that must be observed to minimize the chance of failure and to obtain higher reliability from your cypress semiconductor devices. 7.1 precautions for product design this section describes precautions when designing electronic equipment using semiconductor devices. absolute maximum ratings semiconductor devices can be permanently damaged by application of stress (voltage, current, temperature, etc.) in excess of certain established limits, called absolute maximum ratings. do not exceed these ratings. recommended operating co nditions recommended operating conditions are normal operating ranges for the semiconductor device. all the device's electrical characteristics are warranted when operated within these ranges. always use semiconductor devices within the recommended operati ng conditions. operation outside these ranges may adversely affect reliability and could result in device failure. no warranty is made with respect to uses, operating conditions, or combinations not represented on the data sheet. users considering applicat ion outside the listed conditions are advised to contact their sales representative beforehand. processing and protection of pins these precautions must be followed when handling the pins which connect semiconductor devices to power supply and input/outpu t functions. (1) preventing over - voltage and over - current conditions exposure to voltage or current levels in excess of maximum ratings at any pin is likely to cause deterioration within the dev ice, and in extreme cases leads to permanent damage of the devi ce. try to prevent such overvoltage or over - current conditions at the design stage. (2) protection of output pins shorting of output pins to supply pins or other output pins, or connection to large capacitance can cause large current flows . such conditions if present for extended periods of time can damage the device. therefore, avoid this type of connection. (3) handling of unused input pins unconnected input pins with very high impedance levels can adversely affect stability of operation. such pins should be connected through an appropriate resistance to a power supply pin or ground pin.
document number: 002 - 00233 rev. *d page 32 of 109 s6e1c series latch - up semiconductor devices are constructed by the formation of p - type and n - type areas on a substrate. when subjected to abnormally high voltages, internal parasit ic pnpn junctions (called thyristor structures) may be formed, causing large current levels in excess of several hundred ma to flow continuously at the power supply pin. this condition is called latch - up. caution: the occurrence of latch - up not only causes loss of reliability in the semiconductor device, but can cause injury or damage from high heat, smoke or flame. to prevent this from happening, do the following: (1) be sure that voltages applied to pins do not exceed the absolute maximum ratings. this sh ould include attention to abnormal noise, surge levels, etc. (2) be sure that abnormal current flows do not occur during the power - on sequence. observance of safety regulations and standards most countries in the world have established standards and regula tions regarding safety, protection from electromagnetic interference, etc. customers are requested to observe applicable regulations and standards in the design of products. fail - safe design any semiconductor devices have inherently a certain rate of failu re. you must protect against injury, damage or loss from such failures by incorporating safety design measures into your facility and equipment such as redundancy, fire protection, and prevention of over - current levels and other abnormal operating conditio ns. precautions related to usage of devices cypress semiconductor devices are intended for use in standard applications (computers, office automation and other office equipment, industrial, communications, and measurement equipment, personal or household d evices, etc.). caution: customers considering the use of our products in special applications where failure or abnormal operation may direct ly affect human lives or cause physical injury or property damage, or where extremely high levels of reliability are demanded (such as aerospace systems, atomic energy controls, sea floor repeaters, vehicle operating controls, medical devices for life support, etc.) are requested to consult with sales representatives before such use. the company will not be responsible for damages arising from such use without prior approval. 7.2 precautions for package mounting package mounting may be either lead insertion type or surface mount type. in either case, for heat resistance during solderin g, you should mount only under cypress recommended conditions. for detailed information about mount conditions, contact your sales representative. lead insertion type mounting of lead insertion type packages onto printed circuit boards may be done by two methods: direct soldering on the boar d, or mounting by using a socket. direct mounting onto boards normally involves processes for inserting leads into through - holes on the board and using the flow soldering (wave soldering) method of applying liquid solder. in this case, the soldering process u sually causes leads to be subjected to thermal stress in excess of the absolute ratings for storage temperature. mounting processes should conform to cypress recommended mounting conditions. if socket mounting is used, differences in surface treatment of the socket contacts and ic lead surfaces can lead to contact deterioration after long periods. for this reason it is recommended that the surface treatment of socket contacts and ic lead s be verified before mounting.
document number: 002 - 00233 rev. *d page 33 of 109 s6e1c series surface mount type surface mount pack aging has longer and thinner leads than lead - insertion packaging, and therefore leads are more easily deformed or bent. the use of packages with higher pin counts and narrower pin pitch results in increased susceptibility to open connec tions caused by defo rmed pins, or shorting due to solder bridges. you must use appropriate mounting techniques. cypress recommends the solder reflow method, and has established a ranking of mounting conditions for each product. users are advised to mount packages in accordanc e with cypress ranking of recommended conditions. lead - free packaging caution: when ball grid array (bga) packages with sn - ag - cu balls are mounted using sn - pb eutectic soldering, junction strength may be reduced under some conditions of use. storage of semiconductor devices because plastic chip packages are formed from plastic resins, exposure to natural environmental conditions will cause absorpt ion of moisture. during mounting, the application of heat to a package that has absorbed moisture can cause s urfaces to peel, reducing moisture resistance and causing packages to crack. to prevent, do the following: (1) avoid exposure to rapid temperature changes, which cause moisture to condense inside the product. store products in locations where temperature c hanges are slight. (2) use dry boxes for product storage. products should be stored below 70% relative humidity, and at temperatures between 5 ? c and 30 ? c. w hen you open dry package that recommends humidity 40% to 70% relative humidity. (3) when necessary , cypress packages semiconductor devices in highly moisture - resistant aluminum laminate bags, with a silica gel desiccant. devices should be sealed in their aluminum laminate bags for storage. (4) avoid storing packages where they are exposed to corrosive gases or high levels of dust. baking packages that have absorbed moisture may be de - moisturized by baking (heat drying). follow the cypress recommended conditions for baking. condition: 125c/24 h static electricity because semiconductor devices are partic ularly susceptible to damage by static electricity, you must take the following precautions: (1) maintain relative humidity in the working environment between 40% and 70%. use of an apparatus for ion generation may be needed to remove electricity. (2) elec trically ground all conveyors, solder vessels, soldering irons and peripheral equipment. (3) eliminate static body electricity by the use of rings or bracelets connected to ground through high resistance (on the le vel of 1 m ). wearing of conductive clothi ng and shoes, use of conductive floor mats and other measures to minimize shock loads is recommended. (4) ground all fixtures and instruments, or protect with anti - static measures. (5) avoid the use of styrofoam or other highly static - prone materials for s torage of completed board assemblies.
document number: 002 - 00233 rev. *d page 34 of 109 s6e1c series 7.3 precautions for use environment reliability of semiconductor devices depends on ambient temperature and other conditions as described above. for reliable performance, do the following: (1) humidity prolonged use in high humidity can lead to leakage in devices as well as printed circuit boards. if high humidity levels are anticipated, consider anti - humidity processing. (2) discharge of static electricity when high - voltage charges exist close to semiconductor devices, discharges can cause abnormal operation. in such cases, use anti - static measures or processing to prevent discharges. (3) corrosive gases, dust, or oil exposure to corrosive gases or contact with dust or oil may lead to chemical reactions that will adverse ly affect the device. if you use devices in such conditions, consider ways to prevent such exposure or to protect the devices. (4) radiation, including cosmic radiation most devices are not designed for environments involving exposure to radiation or cosmi c radiation. users should provide shielding as appropriate. (5) smoke, flame caution: plastic molded devices are flammable, and therefore should not be used near combustible substances. if devices begin to smoke or burn, there is danger of the release of t oxic gases. customers considering the use of cypress products in other special environmental conditions should consult with sales representatives.
document number: 002 - 00233 rev. *d page 35 of 109 s6e1c series 8. handling devices power supply pins in products with multiple v cc and v ss pins, respective pins at the same potential are interconnected within the device in order to prevent malfunctions such as latch - up. however, all of these pins should be connected externally to the power supply or ground lines in order to reduce electromagnetic emission levels, to prevent abnormal operation of strobe signals caused by the rise in the ground level, and to conform to the total output current rating. moreover, connect the current supply source with each power supply pin and gnd pin of this device at low impedance. it is also advisable that a ceramic capacitor of approximately 0.1 f be connected as a bypass capacitor between each power supply pin and gnd pin , between avrh pin and avrl pin near this device. stabilizing supply voltage a malfunction may occur when the power suppl y voltage fluctuates rapidly even though the fluctuation is within the recommended operating conditions of the vcc power supply voltage. as a rule, with voltage stabilization, suppress the voltage fluctuation so that the fluctuation in vcc ripple ( peak - to - peak value) at the commercial frequency (50 hz/60 hz) does not exceed 10% of the vcc value in the recommended operating conditions, and the transient fluctuation rate does not exceed 0.1 v/s when there is a momentary fluctuation on switching the power sup ply. crystal oscillator circuit noise near the x0 /x1 and x0a/ x1 a pins may cause the device to malfunction. design the printed circuit board so that x0 / x1, x0a/x1a pins, the crystal oscillator, and the bypass capacitor to ground are located as close to the device as possible. it is strongly recommended that the pc board artwork be designed such that the x0 /x1 and x0a/ x1 a pins are surrounded by ground plane as this is expected to produce stable operation. evaluate oscillation of your using crystal oscillator by your mount board. sub crystal oscillator this series sub oscillator circuit is low gain to keep the low current consumption. the crystal oscillator to fill the follow ing conditions is recommended for sub crystal oscillator to stabilize the oscillation. ? surface mount type size: more than 3.2 mm 1.5 mm load capacitance: appro xima tely 6 pf to 7 pf ? lead type load capacitance: approximately 6 pf to 7 pf
document number: 002 - 00233 rev. *d page 36 of 109 s6e1c series using an external clock when using an external cloc k as an input of the main clock , set x0 / x1 to the external clock input, and input the clock to x0 . x1 (pe3) can be used as a general - purpose i/o port. similarly, w hen using an external cloc k as an input of the sub clock , set x0 a/ x1 a to the external clock input, and input the clock to x0 a. x1 a (p47) can be used as a general - purpose i/o port. however in the deep standby mode, an external clock a s an input of the sub clock can not be used. handling when using multi - function serial pin as i 2 c pin if it is using the multi - function serial pin as i 2 c pins, p - ch transistor of digital output is always disable d . however, i 2 c pins need to keep the electrical characteristic like other pins and not to connect to the external i 2 c bus system with power off. c pin this series contains the regulator. be sure to connect a smoothing capacitor (c s ) for the regulator between the c pin and the gnd pin. please use a ceramic capacitor or a capacitor of equivalent frequency characteristics as a smoothing capacitor. however, some laminated ceramic capacitors have the characteristics of capacitance variation due to thermal fluctuation (f cha racteristics and y5v characteristics). please select the capacitor that meets the specifications in the operating conditions to use by evaluating the temperature characteristics of a capacitor. a smoothing capacitor of about 4.7 f would be recommended for this series. incidentally, the c pin becomes floating in deep standby mode. mode pins (md0) connect the md pin (md0) directly to v cc or v ss pins. design the printed circuit board such that the pull - up/down resistance stays low, as well as the distance between the mode pins and v cc pins or v ss pins is as short as possible and the connection impedance is low, when the pins are pulled - up/down such as for switching the pin level and rewriting the flash memory data. it is becaus e of preventing the device erroneously switching to test mode due to noise. example of using an external clock device x0 ( x0a ) x1 (pe3), x1a (p47) can be used as general - purpose i/o ports. c s device c vss gnd set as external clock input
document number: 002 - 00233 rev. *d page 37 of 109 s6e1c series notes on power - on turn power on/off in the following order or at the same time. turning on : vcc serial communication there is a possibility to receive wrong data due to the noise or other causes on the serial communication. therefore, design a printed circuit board so as to avoid noise. consider the case of receiving wrong data due to noise ; perform error detection such as by applying a checksum of data at the end. if an error is detected , retransmit the data. differences in features among the products with different memory sizes and between flash memory products and mask products the electric characteristics including power consumption, esd, latc h - up, noise characteristics, and oscillation characteristics among the products with different memory sizes and between flash memory products and mask products are different because chip layout and memory structures are different. if you are switching to u se a different product of the same series, please make sure to evaluate the electric characteristics. pull - up function of 5 v tolerant i/o please do not input the signal more than vcc voltage at the time of pull - up function use of 5 v tolerant i / o. handlin g when using debug pins when debug pins ( swdio/swclk ) are set to gpio or other peripheral functions, set them as output only; do not set them as input.
document number: 002 - 00233 rev. *d page 38 of 109 s6e1c series 9. memory map memory map (1) see "memory map (2)" for the memory size details. 0x41ff_ffff 0xffff_ffff 0xf802_0000 0x4006_2000 0x4006_1000 dstc 0xf800_0180 0x4005_0000 reserved 0x4004_0000 usb 0xf800_0100 0x4003_cb00 0xf800_0000 0x4003_ca00 mfs-i2s clock gen. 0x4003_c900 smart card i/f 0xf000_2000 0x4003_c200 reserved 0x4003_c100 peripheral clock gating 0xf000_1000 0x4003_c000 low speed cr prescaler 0x4003_b000 rtc 0x4003_a000 watch counter 0xf000_0000 0x4003_9000 crc accelerator 0x4003_8000 mfs 0xe000_0000 0x4003_7000 0x4003_6000 usb clock ctrl 0x4003_5000 lvd/ds mode 0x4400_0000 0x4003_4000 0x4003_3000 gpio 0x4200_0000 0x4003_2000 reserved 0x4003_1000 int-req.read 0x4000_0000 0x4003_0000 exti 0x4002_f000 reserved 0x4002_e000 hcr trimming 0x2400_0000 0x4002_8000 0x2200_0000 0x4002_7000 a/d converter 0x4002_6000 reserved 0x4002_5000 base timer 0x2000_4000 0x2000_0000 0x4001_6000 0x4001_5000 dual timer 0x0010_0008 0x0010_0004 cr trim 0x4001_3000 0x0010_0000 security 0x4001_2000 sw-watchdog 0x4001_1000 hw-watchdog 0x0001_fff0 0x4001_0000 clock/reset 0x0000_0000 0x4000_1000 0x4000_0000 flash-if cm0+ coresight-mtb(sfr) reserved reserved reserved sram fast gpio (single-cycle i/o port) fast gpio (single-cycle i/o port) reserved mtb_dwt vir (vector indicate reg.) (single-cycle i/o port) reserved reserved cm0+ private peripherals reserved 32 mbytes bit band alias 0x40000000 ~ 0x40100000 reserved reserved flash peripherals 32 mbytes bit band alias 0x20000000 ~ 0x20100000 reserved reserved reserved hdmi-cec/ remote control receiver reserved reserved
document number: 002 - 00233 rev. *d page 39 of 109 s6e1c series memory map (2) s6e1c11/s6e1c31 s6e1c12/s6e1c32 *: see " s6e1c1/c3 series flash programming manual" to check details of the f lash memory.
document number: 002 - 00233 rev. *d page 40 of 109 s6e1c series peripheral address map start a ddre ss end a ddress bus peripheral 0x4000_0000 0x4000_0fff ahb flash memory i/f register 0x4000_1000 0x4000_ffff reserved 0x4001_0000 0x4001_0fff apb0 clock/reset control 0x4001_1000 0x4001_1fff hardware watchdog t imer 0x4001_2000 0x4001_2fff software watchdog t imer 0x4001_3000 0x4001_4fff reserved 0x4001_5000 0x4001_5fff dual - timer 0x4001_6000 0x4001_ffff reserved 0x4002_0000 0x4002_0fff apb1 reserved 0x4002_1000 0x4002_3fff reserved 0x4002_4000 0x4002_4fff reserved 0x4002_5000 0x4002_5fff base timer 0x4002_6000 0x4002_6fff reserved 0x4002_7000 0x4002_7fff a/d converter 0x4002_8000 0x4002_dfff reserved 0x4002_e000 0x4002_efff built - in cr trimming 0x4002_f000 0x4002_ffff reserved 0x4003_0000 0x4003_0fff external interrupt controller 0x4003_1000 0x4003_1fff interrupt request batch - read function 0x4003_2000 0x4003_2fff reserved 0x4003_3000 0x4003_3fff gpio 0x4003_4000 0x4003_4fff hdmi - cec /remote control receiver 0x4003_5000 0x4003_5 f ff low - voltage detection / ds mode / vref calibration 0x4003_6 000 0x4003_6f ff usb clock generator 0x4003_ 70 00 0x4003_7 7 ff reserved 0x4003_7800 0x4003_79ff reserved 0x4003_7a00 0x4003_7fff reserved 0x4003_8000 0x4003_8fff multi - function s erial interface 0x4003_9000 0x4003_9fff crc 0x4003_a000 0x4003_afff watch counter 0x4003_b000 0x4003_bfff r eal - time clock 0x4003_c000 0x4003_c 0 ff low - speed cr prescaler 0x4003_c100 0x4003_c7ff peripheral clock gating 0x4003_ c8 00 0x4003_ c8 ff reserved 0x4003_c900 0x4003_c9ff smart card i nterface 0x4003_ca00 0x4003_caff mfs - i2s clock generator 0x4003_ cb 00 0x4003_ f fff reserved 0x4004_0000 0x400 4 _ffff ahb usb ch.0 0x400 5 _0000 0x4006_0fff reserved 0x4006_1000 0x4006_1fff dstc 0x4006_ 2 000 0x41ff_ffff reserved
document number: 002 - 00233 rev. *d page 41 of 109 s6e1c series 10. pin status in each cpu state the following table shows pin status in each cpu stat e . type selected pin f unction cpu s tate (1) (2) (3) (4) (5) (6) (7) (8) a ma in os c illation circuit selected 3 main os c illation circuit selected os os oe oe oe g s i s os digital i/o s e lected 4 main clock external input selected - - ie/is ie/is ie/is is is is gpio selected - - pc hc is hs is hs b main os c illation circuit selected 3 main os c illation circuit selected os os oe oe oe g s i s os digital i/o s e lected 4 gpio selected - - pc hc is gs is gs c sub os c illation circuit selected 3 sub os c illation circuit selected os oe oe oe oe oe oe oe digital i/o s e lected 4 sub clock external input selected - - ie/is ie/is ie/is is is is gpio selected - - pc hc is hs is hs d sub os c illation circuit selected 3 sub os c illation circuit selected os oe oe oe oe oe oe oe digital i/o s e lected 4 gpio selected - - pc hc is hs is hs e digital i/o selected initx input this pin is digital input pin, pull up resistor is on, and digital input i s not shut off in all cpu state s . f digital i/o selected md0 input this pin is digital input pin, pull up resistor is none, digital input i s not shut off in all cpu state s . g usb i/o selected 5 usb port selected - - ue us us us us us digital i/o s e lected 6 gpio selected is ie cp hc is hs is hs h digital i/o s e lected sw selected is ip 7 pc ip ip ip ip ip gpio selected - - pc hc is hs is hs i digital i/o s e lected nmi selected - - ip ip ip - - - wkup0 enable and input selected - - ip ip ip ip ip ip gpio selected is ie pc hc is - - - j analog input selected 8 analog input selected analog input is ena bled in all cpu state digital i/o s e lected 9 wkup enable and input selected - - ip ip ip ip ip ip external interrupt enable and input selected - - ip ip ip gs is gs gpio selected - - pc hc is hs is hs resource other than above selected - - pc hc is gs is gs k digital i/o s e lected cec pin selected - - cp cp cp cp cp cp wkup enable and input selected - - ip ip ip ip ip ip external interrupt enable and input selected - - pc hc ip gs is gs gpio selected is ie pc hc is hs is hs resource other than above selected - - pc hc is gs is gs t erm s in the table above have the following meaning s . 3 in this type, when internal oscillation fu nction is selected, digital output is disabled . (hi - z) pull up resistor is off , d igital input is shut off by fixed 0. 4 in this type, when digital i/o function is selected, internal oscillation function is d isabled. 5 in this type, when usb i/o function is sele c ted, digita l output is disable d . (hi - z) , digital input is shut off by fixed 0. 6 in this type, when digital i/o function is selected, usb i/o function is disable d.this pin does not have pull up resistor . 7 in this case, pcr register is initialized to 1 . pull up resistor is on. 8 in this type, when analog input function is sele c ted, digital output is disabled , ( hi - z ). pull up resistor is off , digital input is shut off by fixed 0. 9 in this type, when digital i/o function is selected, an a log input function is not available.
document number: 002 - 00233 rev. *d page 42 of 109 s6e1c series type this indicates a pin status type that is show n in pin list table in 5 . list of pin functions selected pin function this indicates a pin function that is selected by user program. cpu s t ate this indicates a state of the cpu that is shown below. (1) reset s t ate. cpu is initialized by p ower - on reset or a reset due to low power voltage supply. (2) reset s t ate. cpu is initialized by initx input signal or system initialization after power on reset. (3) run mode or sleep mode state . (4) timer mode , rtc mode or stop mode state . t he standb y pin level setting bit (spl) in the standby mode control register (stb_ctl) is set to "0". (5) timer mode , rtc mode or stop mode state . t he standby pin level setting bit (spl) in the standby mode control register (stb_ctl) is set to " 1 ". (6) deep standby s top mode or deep standby rtc mode state , t he standby pin level setting bit (spl) in the standby mode control register (stb_ctl) is set to " 0 " (7) deep standby s top mode or deep standby rtc mode state , t he standby pin level setting bit (spl) in the standby mode control register (stb_ctl) is set to " 1 " (8) run mode state after returning from deep standby mode. (i/o state hold function(contx) is fixed at 1)
document number: 002 - 00233 rev. *d page 43 of 109 s6e1c series each pin status the meaning of the s ymbols in the pin status table is as follows. is digital output is disabled . (hi - z ) pull up resistor is off. digital input is shut off by fixed 0. ie digital output is disabled . ( hi - z ) pull up resistor is off. digital input is not shut off. ip digital output is disabled . ( hi - z ) pull up resistor is defined by the value of the pcr register. digital input is not shut off. ie/is digital output is disabled . ( hi - z ) pull up resistor is off. digital input is shut off in case of the osc stop. digital input is not shut off in case of the osc operation. oe the osc is in operation state. however, it may be stopped in some operation mode of the cpu. for detail, see chapter
document number: 002 - 00233 rev. *d page 44 of 109 s6e1c series 11. electrical characteristics 11.1 absolute maximum ratings parameter symbol rating unit remarks min max power supply voltage 10 , 11 v cc v ss - 0.5 v ss + 4.6 v analog reference voltage 10 , 12 avrh v ss - 0.5 v ss + 4.6 v input voltage 10 v i v ss - 0.5 v cc + 0.5 ( 4.6 v) v v ss - 0.5 v ss + 6.5 v 5 v tolerant analog pin input voltage 10 v ia v ss - 0.5 v cc + 0.5 ( 4.6 v) v output voltage 10 v o v ss - 0.5 vcc + 0.5 ( 4.6 v) v l level maximum output current 13 i ol - 10 ma 4 ma type l level average output current 14 i olav - 4 ma 4 ma type l level total maximum output current i ol - 100 ma l level total average output current 15 i olav - 50 ma h level maximum output current 13 i oh - - 10 ma 4 ma type h level average output current 14 i ohav - - 4 ma 4 ma type h level total maximum output current i oh - - 100 ma h level total average output current 15 i ohav - - 50 ma power consumption p d - 200 mw storage temperature t stg - 55 + 150 c < warning > ? semiconductor devices can be permanently damaged by application of stress (voltage, current, temperature, etc.) in excess of absolute maximum ratings. do not exceed these ratings. 10 these parameters are based on the condition that v ss = 0 v. 11 v cc must not drop below v ss - 0.5 v. 12 ensure that the voltage does not to exceed v cc + 0. 5 v at power - on . 13 the maximum output current is the peak value for a single pin. 14 the average output is the average current for a single pin over a period of 100 ms. 15 the total average output current is the average current for all pins over a period of 100 ms.
document number: 002 - 00233 rev. *d page 45 of 109 s6e1c series 11.2 recommended operating conditions (v ss = 0.0 v) parameter symbol conditions value unit remarks min max power supply voltage v cc - 1.65 16 3.6 v 3.0 3.6 v 17 analog reference voltage avrh - 2.7 v cc v v cc cc v cc v v cc < 2.7 v avrl - v ss v ss v smoothing capacitor c s - 1 10 f 18 operating t emperature ta - - 40 + 10 5 c < warning > 1. the recommended operating conditions are required in order to ensure the normal operation of the semiconductor device. all of the device's electrical characteristics are warranted when the device is operated within these ranges. 2. always use semiconductor devices within their recommended operating condition ranges. operation outside these ranges may adversely affect reliability and could result in device failure. 3. no warranty is made with respect to uses, operating conditions, or combinations not represented on the data sheet. 4. users considering appli cation outside the listed conditions are advised to contact their representatives beforehand. 16 in between less than the minimum power supply voltage reset / interrupt d etection voltage or more, instruction execution and low voltage detection function by built - in high - speed cr (including main pll is used) or built - in low - speed cr is possible to operate only. 17 when p81 / udp0 and p80 /udm0 pins are used as usb (udp0, udm0). 18 see "c pin" in " 8 . handling devices " fo r the connection of the smoothing capacitor.
document number: 002 - 00233 rev. *d page 46 of 109 s6e1c series 11.3 dc characteristics 11.3.1 current rating symbol (pin name ) conditions hclk frequency 19 value unit remarks typ 20 max 21 icc (vcc) run mode, code executed from flash 8 mhz external clock input, pll on 22 nop code executed built - in high speed cr stopped all peripheral clock stopped by ckenx 8 mh z 1.4 2.7 ma 23 20 mh z 2.6 4.1 40 mh z 3.9 5.6 8 mhz external clock input, pll on 22 benchmark code executed built - in high speed cr stopped pclk1 stopped 8 mh z 1.3 2.6 ma 23 20 mh z 2.3 3.8 40 mh z 3.4 5.1 8 mhz crystal oscillation, pll on 22 nop code executed built - in high speed cr stopped all peripheral clock stopped by ckenx 8 mh z 1.6 3.0 ma 23 , 24 , 20 mh z 2.8 4.4 40 mh z 4.1 5.9 run mode, code executed from ram 8 mhz external clock input, pll on 22 nop code executed built - in high speed cr stopped all peripheral clock stopped by ckenx 8 mh z 1.0 2.1 ma 23 20 mh z 1.7 2.9 40 mh z 2.7 4.0 run mode, code executed from flash 8 mhz external clock input, pll on nop code executed built - in high speed cr stopped pclk1 stopped 40 mh z 1.6 3.1 ma 23 , 25 , 26 run mode, code executed from flash built - in high speed cr 27 nop code executed all peripheral clock stopped by ckenx 8 mh z 1.1 2.4 ma 23 32 khz crystal oscillation nop code executed all peripheral clock stopped by ckenx 32 k hz 240 1264 a 23 built - in low speed cr nop code executed all peripheral clock stopped by ckenx 100 k hz 246 1271 a 23 iccs (vcc) sleep operation 8 mhz external clock input, pll on 22 all peripheral clock stopped by ckenx 8 mh z 0.8 1.9 ma 23 20 mh z 1.3 2.4 40 mh z 1.8 3.0 built - in high speed cr 27 all peripheral clock stopped by ckenx 8 mh z 0.6 1.7 ma 23 32 khz crystal oscillation all peripheral clock stopped by ckenx 32 k hz 237 1261 a 23 built - in low speed cr all peripheral clock stopped by ckenx 100 k hz 238 1262 a 23 19 pclk0 is set to divided rate 8 . 20 t a =+25 c , v cc =3. 3 v 21 t a =+ 10 5 c , v cc =3.6 v 22 when hclk=8, pll is off. 23 all ports are fixed 24 when imainsel bit (mosc_ctl:imainsel) is 10 (default). 25 flash sync down is set to frwtr.rwt=111 and fsyndn.sd=1111 26 vcc=1.65 v 27 the frequency is set to 8 mhz by trimming
document number: 002 - 00233 rev. *d page 47 of 109 s6e1c series parameter symbol (pin name ) conditions value unit remarks typ max power supply current i cch (vcc) stop mode ta=25 vcc= 3.3 v 1 2 .4 52.4 a 28 , 29 ta=25 vcc= 1.65 v 1 2 .0 52.0 a 28 , 29 ta= 105 vcc= 3.6 v - 597 a 28 , 29 i cct (vcc) sub timer mode ta=25 vcc= 3. 3 v 32 khz crystal oscillation 1 5.6 55.6 a 28 , 29 ta=25 vcc= 1.65 v 32 khz crystal oscillation 1 5.0 55.0 a 28 , 29 ta= 105 vcc= 3.6 v 32 khz crystal oscillation - 601 a 28 , 29 i ccr (vcc) rtc mode ta=25 vcc= 3. 3 v 32 khz crystal oscillation 1 3.2 53.2 a 28 , 29 ta=25 vcc= 1.65 v 32 khz crystal oscillation 1 2.7 52.7 a 28 , 29 ta= 105 vcc= 3.6 v 32 khz crystal oscillation - 598 a 28 , 29 28 all ports are fixed. lvd off. flash off . 29 when caldone bit(cal_ctl:caldone) is 1. in case of 0, bipolar vref current is added.
document number: 002 - 00233 rev. *d page 48 of 109 s6e1c series parameter symbol (pin name ) conditions value unit remarks typ max power supply current i cchd ( vcc ) deep standby stop mode ram off ta=25 c vcc= 3.3 v 0.58 1.85 a 30 , 31 ta=25 c vcc= 1.65 v 0.56 1.83 a 30 , 31 ta= 105 c vcc= 3.6 v - 46 a 30 , 31 ram o n ta=25 c vcc= 3.3 v 0.78 6.6 a 30 , 31 ta=25 c vcc= 1.65 v 0.76 6.6 a 30 , 31 ta= 105 c vcc= 3.6 v - 88 a 30 , 31 i ccrd ( vcc ) deep standby rtc mode ram off ta=25 c vcc= 3.3 v 1.16 2.4 a 30 , 31 ta=25 c vcc= 1.65 v 1.15 2.4 a 30 , 31 ta= 105 c vcc= 3.6 v - 46 a 30 , 31 ram o n ta=25 c vcc= 3.3 v 1.37 7.2 a 30 , 31 ta=25 c vcc= 1.65 v 1.35 7.2 a 30 , 31 ta= 105 c vcc= 3.6 v - 88 a 30 , 31 30 all ports are fixed. lvd of f. 31 when caldone bit(cal_ctl:caldone) is 1. in case of 0, bipolar vref current is added.
document number: 002 - 00233 rev. *d page 49 of 109 s6e1c series lvd current ( v cc = 1.65 v to 3.6 v, v ss = 0 v, t a = - 40c to + 10 5 c) parameter symbol pin name conditions value unit remarks typ max low - v oltage detection circuit (lvd) power supply current i cclvd vcc at operation 0.15 0.3 bipolar vref current ( v cc =1.65 v to 3.6 v, v ss = 0 v, t a = - 40c to + 10 5 c) parameter symbol pin name conditions value unit remarks typ max bipolar vref current i cc bgr vcc at operation 100 200 flash memory current ( v cc = 1.65 v to 3.6 v, v ss = 0 v, t a = - 40c to + 10 5 c) parameter symbol pin name conditions value unit remarks typ max flash m emory w rite/ e rase current i ccflash vcc at write/erase 4.4 5.6 ma a/d converter current ( v cc = 1.65 v to 3.6 v, v ss = 0 v, t a = - 40c to + 10 5 c) parameter symbol pin name conditions value unit remarks typ max power supply current i ccad vcc at operation 0.5 0.75 ma reference power supply current (avrh ) i ccavrh avrh at operation 0.69 1.3 ma avrh=3.6 v at stop 0.1 1.3
document number: 002 - 00233 rev. *d page 50 of 109 s6e1c series peripheral current dissipation ( v cc = 1.65 v to 3.6 v, v ss = 0 v, t a = - 40c to + 10 5 c) clock system peripheral conditions frequency (mhz) unit remarks 8 20 40 hclk gpio at a ll ports operation 0.05 0.12 0.23 ma dstc at 2ch operation 0.02 0.06 0.10 usb at 1ch operation 0.13 0.13 0.13 ma 32 pclk1 base timer at 4ch operation 0.02 0.05 0.10 ma adc at 1 unit operation 0.04 0.10 0.21 multi - function serial at 1ch operation 0.01 0.03 0.06 mfs - i2s at 1ch operation 0.02 0.05 0.08 smart card i/f at 1ch operation 0.04 0.08 0.18 32 usb itself uses 48 mhz clock
document number: 002 - 00233 rev. *d page 51 of 109 s6e1c series 11.3.2 pin characteristics (v cc = 1.65 v to 3.6 v, v ss = 0 v, t a = - 40 c to + 10 5 c ) parameter symbol pin name conditions value unit remarks min typ max h level input voltage (hysteresis input) v ihs cmos hysteresis input pin, md0 v cc cc 0.8 - v cc + 0.3 v v cc < 2.7 v v cc 0. 7 5 v tolerant input pin v cc cc 0.8 - v ss + 5.5 v v cc < 2.7 v v cc 0. 7 l level input voltage (hysteresis input) v ils cmos hysteresis input pin, md0 v cc ss - 0.3 - v cc 0.2 v v cc < 2.7 v v cc 0. 3 5 v tolerant input pin v cc ss - 0.3 - v cc 0.2 v v cc < 2.7 v - v cc 0. 3 h level output voltage v oh 4 ma type v cc oh = - 4 ma v cc - 0.5 - v cc v v cc < 2.7 v , i oh = - 2 ma v cc - 0. 4 5 l level output voltage v ol 4 ma type v cc ol 4 ma v ss - 0.4 v v cc < 2.7 v , i ol = 2 ma input leak current i il - - - 5 - + 5 pull - up resistance value r pu pull - up pin v cc v cc < 2.7 v - - 88 input capacitance c in other than vcc, vss, avrh - - 5 15 pf
document number: 002 - 00233 rev. *d page 52 of 109 s6e1c series 11.4 ac characteristics 11.4.1 main clock input characteristics (v cc = 1.65 v to 3.6 v, v ss = 0 v, t a = - 40c to + 10 5 c) parameter symbol pin name conditions value unit remarks min max input frequency f ch x0, x1 v cc cc < 2.7 v 8 20 - 8 4 8 mhz when the external c lock is used input clock cycle t cylh - 20.83 125 ns when the external c lock is used input clock pulse width - p wh /t cylh , p wl /t cylh 45 55 % when the external c lock is used input clock ris ing time and fall ing time t cf, t cr - - 5 ns when the external c lock is used internal operating c lock 33 frequency f cm - - - 40 .8 mhz master clock f cc - - - 40 .8 mhz base clock (hclk/fclk) f cp0 - - - 40 .8 mhz apb0 bus clock 34 f cp1 - - - 40 .8 mhz apb1 bus clock 34 internal operating clock 33 cycle time t cyccm - - 24.5 - ns master clock t cycc - - 24.5 - ns base clock (hclk/fclk) t cycp0 - - 24.5 - ns apb0 bus clock 34 t cycp1 - - 24.5 - ns apb1 bus clock 34 33 for details of each internal operating clock , refer to " chapter : clock " in " fm 0 + family peripheral manual ". 34 for details of the apb bus to which a peripheral is connected, see the peripheral address map . x0
document number: 002 - 00233 rev. *d page 53 of 109 s6e1c series 11.4.2 sub clock input characteristics 35 (v cc = 1.65 v to 3.6 v, v ss = 0 v, t a = - 40 c to + 10 5 c ) parameter symbol pin name conditions value unit remarks min typ max input frequency f cl x0a, x1a - - 32.768 - khz when the crystal oscillator is connected - 32 - 100 khz when the external c lock is used input clock cycle t cyll - 10 - 31.25 wh /t cyll , p wl /t cyll 45 - 55 % when the external c lock is used 35 see "sub crystal oscillator" in "11. handling devices" for the crystal oscillator used. x0 a
document number: 002 - 00233 rev. *d page 54 of 109 s6e1c series 11.4.3 built - in cr oscillation characteristics built - in high - speed cr (v cc = 1.65 v to 3.6 v, v ss = 0 v, t a = - 40 c to + 10 5 c ) parameter symbol conditions value unit remarks min typ max clock frequency f crh ta = - 1 0 c to + 105 c , 7.92 8 8.08 mhz after trimming 36 ta = - 4 0 c to + 105 c , 7.84 8 8.16 mhz frequency stabilization time t crwt - - - 300 37 built - in low - speed cr (v cc = 1.65 v to 3.6 v, v ss = 0 v, t a = - 40 c to + 10 5 c ) parameter symbol conditions value unit remarks min typ max clock frequency f crl - 50 100 150 k hz 36 in the case of using the valu es in cr trimming area of flash memory at shipment for frequency trimming/temperature trimming. 37 this is time from the trim value setting to stable of the frequency of the high - speed cr clock. after setting the trim value, the period when the frequen cy stability time passes can use the high - speed cr clock as a source clock.
document number: 002 - 00233 rev. *d page 55 of 109 s6e1c series 11.4.4 operating conditions of main pll ( in the case of using the main clock as the input clock of the pll ) (v cc = 1.65 v to 3.6 v, v ss = 0 v, t a = - 40 c to + 10 5 c ) parameter symbol value unit remarks min typ max pll osci llation stabilization wait tim e 38 (lock up time) t lock 50 - - pll input clock frequency f plli 8 - 16 mh z pll multiple rate - 5 - 18 multiple pll macro oscillation clock frequency f pllo 75 - 150 mh z main pll clock frequency 39 f clkpll - - 40 mh z usb clock frequency 40 f clk s pll - - 4 8 mh z 11.4.5 operating conditions of main pll (in the case of using the built - in high - speed cr clock as the input clock of the main pll) (v cc = 1.65 v to 3.6 v, v ss = 0 v, t a = - 40 c to + 10 5 c ) parameter symbol value unit remarks min typ max pll oscillation stabilization wait time 41 (lock up time) t lock 50 - - pll input clock frequency f plli 7.84 8 8.16 mh z pll multiple rate - 9 - 18 multiple pll macro oscillation clock frequency f pllo 7 5 - 150 mh z main pll clock frequency 42 f clkpll - - 40 .8 mh z note: ? for the main pll source clock, i npu t the high - speed cr clock (clkhc) whose frequency and temperature have been trimme d. when setting pll multiple rate, please take the accuracy of the built - in h igh - speed cr clock into account and prevent the master clock from exceeding the maximum frequency. 38 the wait time is the time it takes for pll oscillation to stabilize. 39 for details of the main pll clock (clkpll), refer to "chapter: clock" in "fm0+ family peripheral manual". 40 for more information about usb clock, see "chapter: usb clock generation" in "fm0+ family peripheral manual communication mac ro part. 41 the wait time is the time it takes for pll oscillation to stabilize. 42 for details of the main pll clock (clkpll), ref er to "chapter: clock" in "fm0+ family peripheral manual". high - speed cr clock (clkhc) pll input clock main pll pll macro oscillation clock m divider main pll clock (clkpll) n divider main pll connection main clock (clkmo) k divider usb clock divider usb clock
document number: 002 - 00233 rev. *d page 56 of 109 s6e1c series 11.4.6 reset input characteristics (v cc = 1.65 v to 3.6 v, v ss = 0 v, t a = - 40 c to + 10 5 c ) parameter symbol pin name conditions value unit remarks min max reset input time t initx initx - 500 - ns 11.4.7 power - on reset timing (v ss = 0 v, t a = - 40 c to + 10 5 c ) parameter symbol pin name condition value unit remarks min typ max power supply shut down time t off v cc - 2 - - ms v cc must be held below 0.2v for a minimum period of t off . improper initialization may occur if this condition is not met. power ramp rate dv/dt vcc: 0.2v to 1.65v 0.6 - 1000 mv/ off > 2 ms). time until releasing power - on reset t prt - 0.43 - 3.4 ms glossary ? vd h : detection voltage of low - v oltage detection reset . see " 11.7 low - voltage d etection ch aracteristics " . v d h t p r t i n t e r n a l r s t v c c c p u o p e r a t i o n s t a r t r s t a c t i v e r e l e a s e 0 . 2 v 0 . 2 v t o f f d v / d t 0 . 2 v 1 . 6 5 v
document number: 002 - 00233 rev. *d page 57 of 109 s6e1c series 11.4.8 base timer input timing timer input timing (v cc = 1.65 v to 3.6 v, v ss = 0 v, t a = - 40 c to + 10 5 c ) parameter symbol pin name conditions value unit remarks min max input pulse width t tiwh , t tiwl tioan/tiobn (when using as eck, tin) - 2 t cycp - ns trigger input timing (v cc = 1.65 v to 3.6 v, v ss = 0 v, t a = - 40 c to + 10 5 c ) parameter symbol pin name conditions value unit remarks min max input pulse width t trgh , t trgl tioan/tiobn (when using as tgin) - 2 t cycp - ns note: ? t cycp indicates the apb bus clock cycle time. for the number of the apb bus to which the base timer has been connected , see the peripheral address map ? ". eck tin tgin t tiwh v ihs v ihs v ils v ils t tiw l t trgh v ihs v ihs v ils v ils t trg l
document number: 002 - 00233 rev. *d page 58 of 109 s6e1c series 11.4.9 csio /spi/uart timing csio (spi = 0, scinv = 0) (v cc = 1.65 v to 3.6 v, v ss = 0 v, t a = - 40 c to + 10 5 c ) parameter symbol pin name conditions v cc < 2.7 v v cc 2.7 v unit min max min max baud rate - - - - 8 - 8 mbps serial clock cycle time t scyc sck x master mode 4 t cycp - 4 t cycp - ns sck sot delay time slovi sckx , sotx - 30 + 30 - 20 + 20 ns sin sck setup time ivshi sckx , sinx 50 - 36 - ns sck sin hold time shixi sckx , sinx 0 - 0 - ns serial clock "l" pulse width t slsh sckx slave mode 2 t cycp - 10 - 2 t cycp - 10 - ns serial clock "h" pulse width t shsl sckx t cycp + 10 - t cycp + 10 - ns sck sot delay time slove sckx , sotx - 50 - 30 ns sin sck setup time ivshe sckx , sinx 10 - 10 - ns sck sin hold time shixe sckx , sinx 20 - 20 - ns sck falling time tf sckx - 5 - 5 ns sck rising time tr sckx - 5 - 5 ns notes : ? the above ac characteristics are for clock synchronous mode. ? t cycp indicates the apb bus clock cycle time. for the number of the apb bus to which the base timer has been connected , see the peripheral address map . ? the characteristics are applicable only when the relocate port numbers are the same. for instance, they are not applicable for the combination of sckx_0 and sotx_1. ? external load capacitance c l = 30 pf
document number: 002 - 00233 rev. *d page 59 of 109 s6e1c series master mode slave mode t scyc v oh v oh v ol v ol v ol v ih v il v ih v il t slovi t ivshi t shixi sck sot sin t slsh t shsl v ih t f t r v ih v oh v ih v il v il v ol v ih v il v ih v il t slove t ivshe t shixe sck sot sin
document number: 002 - 00233 rev. *d page 60 of 109 s6e1c series csio (spi = 0, scinv = 1 ) (v cc = 1.65 v to 3.6 v, v ss = 0 v, t a = - 40 c to + 10 5 c ) parameter symbol pin name conditions v cc < 2.7 v v cc 2.7 v unit min max min max baud rate - - - - 8 - 8 mbps serial clock cycle time t scyc sckx master mode 4 t cycp - 4 t cycp - ns sck sot delay time shovi sckx , sotx - 30 + 30 - 20 + 20 ns sin sck setup time ivsli sckx , sinx 50 - 36 - ns sck sin hold time slixi sckx , sinx 0 - 0 - ns serial clock "l" pulse width t slsh sckx slave mode 2 t cycp - 10 - 2 t cycp - 10 - ns serial clock "h" pulse width t shsl sckx t cycp + 10 - t cycp + 10 - ns sck sot delay time shove sckx , sotx - 50 - 33 ns sin sck setup time ivsle sckx , sinx 10 - 10 - ns sck sin hold time slixe sckx , sinx 20 - 20 - ns sck falling time tf sckx - 5 - 5 ns sck rising time tr sckx - 5 - 5 ns notes : ? the above ac characteristics are for clock synchronous mode. ? t cycp indicates the apb bus clock cycle time. for the number of the apb bus to which the base timer has been connected , see the peripheral address map . ? the characteristics are applicable only when the relocate port numbers are the same. for instance, they are not applicable for the combination of sckx_0 and sotx_1. ? external load capacitance c l = 30 pf
document number: 002 - 00233 rev. *d page 61 of 109 s6e1c series master mode slave mode t scyc v oh v oh v oh v ol v ol v ih v il v ih v il t shovi t ivsli t slixi sck sot sin t shsl t slsh v ih t f t r v ih v oh v il v il v il v ol v ih v il v ih v il t ivsle t slixe sck sot sin t shove
document number: 002 - 00233 rev. *d page 62 of 109 s6e1c series spi (spi = 1, scinv = 0 ) (v cc = 1.65 v to 3.6 v, v ss = 0 v, t a = - 40 c to + 10 5 c ) parameter symbol pin name conditions v cc < 2.7 v v cc 2.7 v unit min max min max baud rate - - - - 8 - 8 mbps serial clock cycle time t scyc sckx master mode 4 t cycp - 4 t cycp - ns sck sot delay time shovi sckx , sotx - 30 + 30 - 20 + 20 ns sin sck setup time ivsli sckx , sinx 50 - 36 - ns sck sin hold time slixi sckx , sinx 0 - 0 - ns sot sck delay time sovli sckx , sotx 2 t cycp - 30 - 2 t cycp - 30 - ns serial clock "l" pulse width t slsh sckx slave mode 2 t cycp - 10 - 2 t cycp - 10 - ns serial clock "h" pulse width t shsl sckx t cycp + 10 - t cycp + 10 - ns sck shove sckx , s ot x - 50 - 33 ns sin sck setup time ivsle sckx , sinx 10 - 10 - ns sck sin hold time slixe sckx , sinx 20 - 20 - ns sck falling time tf sckx - 5 - 5 ns sck rising time tr sckx - 5 - 5 ns notes : ? the above ac characteristics are for clock synchronous mode. ? t cycp indicates the apb bus clock cycle time. for the number of the apb bus to which the base timer has been connected , see the peripheral address map . ? the characteristics are applicable only when the relocate port numbers are the same. for instance, they are not applicable for the combination of sckx_0 and sotx_1. ? external load capacitance c l = 30 pf
document number: 002 - 00233 rev. *d page 63 of 109 s6e1c series master mode slave mode *: changes when writing to tdr register t sovli t scyc t shovi v ol v ol v oh v oh v o l v oh v o l v ih v i l v ih v i l t ivsli t slixi sck sot sin t f t r t slsh t shsl t shove v i l v i l v ih v ih v ih v oh * v o l v oh v o l v ih v i l v ih v i l t ivsle t slixe sck sot sin
document number: 002 - 00233 rev. *d page 64 of 109 s6e1c series spi (spi = 1, scinv = 1 ) (v cc = 1.65 v to 3.6 v, v ss = 0 v, t a = - 40 c to + 10 5 c ) parameter symbol pin name conditions v cc < 2.7 v v cc 2.7 v unit min max min max baud rate - - - - 8 - 8 mbps serial clock cycle time t scyc sckx master mode 4 t cycp - 4 t cycp - ns sck sot delay time slovi sckx , sotx - 30 + 30 - 20 + 20 ns sin sck setup time ivshi sckx , sinx 50 - 36 - ns sck sin hold time shixi sckx , sinx 0 - 0 - ns sot sck delay time sovhi sckx , sotx 2 t cycp - 30 - 2 t cycp - 30 - ns serial clock "l" pulse width t slsh sckx slave mode 2 t cycp - 10 - 2 t cycp - 10 - ns serial clock "h" pulse width t shsl sckx t cycp + 10 - t cycp + 10 - ns sck sot delay time slove sckx , s ot x - 50 - 33 ns sin sck setup time ivshe sckx , sinx 10 - 10 - ns sck sin hold time shixe sckx , sinx 20 - 20 - ns sck falling time tf sckx - 5 - 5 ns sck rising time tr sckx - 5 - 5 ns notes : ? the above ac characteristics are for clock synchronous mode. ? t cycp indicates the apb bus clock cycle time. for the number of the apb bus to which the base timer has been connected , see the peripheral address map . ? the characteristics are applicable only when the relocate port numbers are the same. for instance, they are not applicable for the combination of sckx_0 and sotx_1. ? external load capacitance c l = 30 pf
document number: 002 - 00233 rev. *d page 65 of 109 s6e1c series master mode slave mode t scyc t slovi v ol v oh v oh v oh v o l v oh v o l v ih v i l v ih v i l t ivshi t shixi t sovhi sck sot sin t shsl t r t slsh t f t slove v il v il v il v ih v ih v oh v o l v oh v o l v ih v il v ih v il t ivshe t shixe sck sot sin
document number: 002 - 00233 rev. *d page 66 of 109 s6e1c series when using csio/spi chip select (scinv=0 , cslvl=1 ) (v cc = 1.65 v to 3.6 v, v ss = 0 v, t a = - 40 c to + 10 5 c ) parameter symbol conditions v cc < 2.7 v v cc 2.7 v unit min max min max scs cssi master mode - 5 0 43 +0 43 - 5 0 43 +0 43 ns sck hold time cshi +0 44 + 5 0 44 +0 44 + 5 0 44 ns scs deselect time t csdi - 5 0 45 + 5 0 44 - 5 0 44 + 5 0 44 ns scs csse slave mode 3t cycp + 30 - 3t cycp + 30 - ns sck hold time cshe 0 - 0 - ns scs deselect time t csde 3t cycp + 30 - 3t cycp + 30 - ns scs dse - 55 - 40 ns scs dee 0 - 0 - ns notes : ? t cycp indicates the apb bus clock cycle time. for the number of the apb bus to which the base timer has been connected , see the peripheral address map . ? for information a bout cssu, cshd, csds, serial chip select timing operating clock, see "fm0+ family peripheral manual ". ? these characteristics guarantee only the same relocate port number. for example, the combination of sckx_0 and s csi x_1 is not guaranteed. ? when the external load capacitance c l = 30 pf. 43 cssu bit value serial chip select timing operating clock cycle. 44 cshd bit value serial chip select timing operating clock cycle. 45 csds bit value serial chip select timing operating clock cycle. irrespective of csds bit setting, 5t cycp or more are required for the period the time when the serial chip select pin becomes inactive to the time when the serial chi p select pin becomes active again.
document number: 002 - 00233 rev. *d page 67 of 109 s6e1c series master mode slave mode scso sck sot (spi=0) sot (spi=1) scsi sck sot (spi=0) sot (spi=1) t cssi t cshi t csdi t d s e t csse t cshe t csde t dee
document number: 002 - 00233 rev. *d page 68 of 109 s6e1c series when using csio/spi chip select (scinv= 1, cslvl=1 ) (v cc = 1.65 v to 3.6 v, v ss = 0 v, t a = - 40 c to + 10 5 c ) parameter symbol conditions v cc < 2.7 v v cc 2.7 v unit min max min max scs cssi master mode - 5 0 46 +0 46 - 5 0 46 +0 46 ns sck hold time cshi +0 47 + 5 0 47 +0 47 + 5 0 47 ns scs deselect time t csdi - 5 0 48 + 5 0 48 - 5 0 48 + 5 0 48 ns scs csse slave mode 3t cycp + 30 - 3t cycp + 30 - ns sck hold time cshe 0 - 0 - ns scs deselect time t csde 3t cycp + 30 - 3t cycp + 30 - ns scs dse - 55 - 40 ns scs dee 0 - 0 - ns notes : ? t cycp indicates the apb bus clock cycle time. for the number of the apb bus to which the base timer has been connected , see the peripheral address map . ? for information a bout cssu, cshd, csds, serial chip select timing operating clock, see "fm0+ family peripheral manual ". ? these characteristics guarantee only the same relocate port number. for example, the combination of sckx_0 and s csi x_1 is not guaranteed. ? when the extern al load capacitance c l = 30 pf. 46 cssu bit value serial chip select timing ope rating clock cycle. 47 cshd bit value serial chip select timing operating clock cycle. 48 csds bit value serial chip select timing operating clock cycle. irrespective of csds bit setting, 5t cycp or more are required for the period the time when the seria l chip select pin becomes inactive to the time when the serial chip select pin becomes active again.
document number: 002 - 00233 rev. *d page 69 of 109 s6e1c series master mode slave mode scso sck sot (spi=0) sot (spi=1) scsi sck sot (spi=0) sot (spi=1) t cssi t cshi t csdi t d s e t csse t cshe t csde t dee
document number: 002 - 00233 rev. *d page 70 of 109 s6e1c series when using csio/spi chip select (scinv= 0, cslvl=0 ) (v cc = 1.65 v to 3.6 v, v ss = 0 v, t a = - 40 c to + 10 5 c ) parameter symbol conditions v cc < 2.7 v v cc 2.7 v unit min max min max scs cssi master mode - 5 0 49 +0 49 - 5 0 49 +0 49 ns sck hold time cshi +0 50 + 5 0 50 +0 50 + 5 0 50 ns scs deselect time t csdi - 5 0 51 + 5 0 51 - 5 0 51 + 5 0 51 ns scs csse slave mode 3t cycp + 30 - 3t cycp + 30 - ns sck hold time cshe 0 - 0 - ns scs deselect time t csde 3t cycp + 30 - 3t cycp + 30 - ns scs dse - 55 - 40 ns scs dee 0 - 0 - ns notes : ? t cycp indicates the apb bus clock cycle time. for the number of the apb bus to which the base timer has been connected , see the peripheral address map . ? for information a bout cssu, cshd, csds, serial chip select timing operating clock, see "fm0+ family peripheral manual ". ? these characteristics guarantee only the same relocate port number. for example, the combination of sckx_0 and s csi x_1 is not guaranteed. ? when the extern al load capacitance c l = 30 pf. 49 cssu bit value serial chip select timing operating clock cycle. 50 cshd bit value serial chip select timing operating clock cycle. 51 csds bit value serial chip select timing operating clock cycle. irrespective of csds bit setting, 5t cycp or more are required for the period the time when the serial chip select pin becomes inactive to the time when the serial chi p select pin becomes active again.
document number: 002 - 00233 rev. *d page 71 of 109 s6e1c series master mode slave mode scso sck sot (spi=0) sot (spi=1) scsi sck sot (spi=0) sot (spi=1) t cssi t cshi t csdi t d s e t csse t cshe t csde t dee
document number: 002 - 00233 rev. *d page 72 of 109 s6e1c series when using csio/spi chip select (scinv= 1, cslvl=0 ) (v cc = 1.65 v to 3.6 v, v ss = 0 v, t a = - 40 c to + 10 5 c ) parameter symbol conditions v cc < 2.7 v v cc 2.7 v unit min max min max scs cssi master mode - 5 0 52 +0 52 - 5 0 52 +0 52 ns sck hold time cshi +0 53 + 5 0 53 +0 53 + 5 0 53 ns scs deselect time t csdi - 5 0 54 + 5 0 54 - 5 0 54 + 5 0 54 ns scs csse slave mode 3t cycp + 30 - 3t cycp + 30 - ns sck hold time cshe 0 - 0 - ns scs deselect time t csde 3t cycp + 30 - 3t cycp + 30 - ns scs dse - 55 - 40 ns scs dee 0 - 0 - ns notes : ? t cycp indicates the apb bus clock cycle time. for the number of the apb bus to which the base timer has been connected , see the peripheral address map . ? for information a bout cssu, cshd, csds, serial chip select timing operating clock, see "fm0+ family peripheral manual ". ? these characteristics guarantee only the same relocate port number. for example, the combination of sckx_0 and s csi x_1 is not guaranteed. ? when the extern al load capacitance c l = 30 pf. 52 cssu bit value serial chip select timing operating clock cycle. 53 cshd bit value serial chip select timing operating clock cycle. 54 csds bit value serial chip select timing operating clock cycle. irrespective of csds bit setting, 5t cycp or more are requi red for the period the time when the serial chip select pin becomes inactive to the time when the serial chip select pin becomes active again.
document number: 002 - 00233 rev. *d page 73 of 109 s6e1c series master mode slave mode scso sck sot (spi=0) sot (spi=1) scsi sck sot (spi=0) sot (spi=1) t cssi t cshi t csdi t d s e t csse t cshe t csde t dee
document number: 002 - 00233 rev. *d page 74 of 109 s6e1c series uart external clock input (ext = 1 ) (v cc = 1.65 v to 3.6 v, v ss = 0 v, t a = - 40 c to + 10 5 c ) parameter symbol conditions value unit remarks min max serial clock l pulse width t slsh c l = 30 pf t cycp + 10 - ns serial clock h pulse width t shsl t cycp + 10 - ns sck falling time t f - 5 ns sck rising time t r - 5 ns t shsl v i l v i l v i l v ih v ih t r t f t slsh s ck
document number: 002 - 00233 rev. *d page 75 of 109 s6e1c series 11.4.10 external input timing (v cc = 1.65 v to 3.6 v, v ss = 0 v, t a = - 40 c to + 10 5 c ) parameter symbol pin name conditions value unit remarks min max input pulse width t inh, t inl adtgx - 2 t cycp 55 - ns a/d converter trigger input int 00 to int08 , int12, int13, int 1 5 , nmix 56 2 t cycp + 100 55 - ns external interrupt , nmi 57 500 - ns wkupx 58 500 - ns deep standby wake up 55 t cycp indicates the apb bus clock cycle time. for the number of the apb bus to which the base timer has been connected, see the per ipheral address map. 56 in run mode and sleep mode 57 in timer mode, rtc mode and stop mode 58 in deep standby rtc mode and deep standby stop mode
document number: 002 - 00233 rev. *d page 76 of 109 s6e1c series 11.4.11 i 2 c timing (v cc = 1.65 v to 3.6 v, v ss = 0 v, t a = - 40 c to + 10 5 c ) parameter symbol conditions standard - mode fast - mode unit remarks min max min max scl clock frequency f scl c l = 30 pf, r = (vp/i ol ) 59 0 100 0 400 khz (repeated) start condition hold time sda scl hdsta 4.0 - 0.6 - scl clock l width t low 4.7 - 1.3 - scl clock h width t high 4.0 - 0.6 - (repeated) start setup time scl sda susta 4.7 - 0.6 - data hold time scl sda hddat 0 3.45 60 0 0.9 61 data setup time sda scl sudat 250 - 100 - ns stop condition setup time scl sda susto 4.0 - 0.6 - bus free time between stop condition and start condition t buf 4.7 - 1.3 - noise filter t sp - 2 t cycp 62 - 2 t cycp 62 - ns ". to use s tandard - mode, set the apb bus clock at 2 mhz or more. to use fast - mode, set the apb bus clock at 8 mhz or more. 59 r represents the pull - up resistance of the scl and sda lines, and c l the load capacitance of the scl and sda lines. v p represents the power supply voltage of the pull - up resistance, and i ol the v ol guaranteed current. 60 the maximum t hdd at must satisfy at least the condition that the period during which the device is holding the scl signal at l (t low ) does not extend. 61 a fast - mode i 2 c bus device can be used in a standard - mode i 2 c bus system, provided that the condition of t sudat 250 ns is fulfilled. 62 t cycp represents the apb bus clock cycle time. for the number of the apb bus to which the base timer has been connected , see the peripheral address map . s cl sda
document number: 002 - 00233 rev. *d page 77 of 109 s6e1c series 11.4.12 i 2 s timing ( mfs - i2s timing ) master mode timing (v cc = 1.65 v to 3.6 v, v ss = 0 v, t a = - 40 c to + 10 5 c ) parameter symbo l pin name condition s v cc < 2.7 v v cc 2.7 v unit min max min max mi2sck max frequency 63 f mi2sck mi2sck x c l = 30 pf - 6.144 - 6.144 m hz i 2 s clock cycle time 63 t icyc mi2sck x 4 t cycp - 4 t cycp - ns i 2 s clock duty cycle ? swdt mi2sck x, mi2sws x - 30 +30 - 20 +20 ns mi2sck sddt mi2sck x, mi2sdo x - 30 +30 - 20 +20 ns mi2sdi dsst mi2sck x, mi2sdi x 50 - 3 6 - ns mi2sck sdht mi2sck x, mi2sdi x 0 - 0 - ns mi2sck falling time tf mi2sck x - 5 - 5 ns mi2sck rising time tr mi2sck x - 5 - 5 ns 63 i 2 s clock should meet the multiple of pclk(t icyc ) and the frequency less than f mi2sck meantime. the detail information please refer to chapter i 2 s of communication macro part of the peripheral manual. m i 2 s c k m i 2 s w s a n d m i 2 s d o m i 2 s d i v i l v o h v o l v i h v i l v i h v i l v i h v i l v i h t f t r t s w d t , t s d d t t d s s t t s d h t
document number: 002 - 00233 rev. *d page 78 of 109 s6e1c series m i2smck input characteristics (v cc = 1.65 v to 3.6 v, v ss = 0 v, t a = - 40 c to + 10 5 c ) parameter symbol pin name conditions value unit remarks min max input frequency f chs m i2s m ck - - 12.288 mhz input clock cycle t cylhs - - 81.3 - ns input clock pulse width - - p whs /t cylhs p wls /t cylhs 45 55 % when using external clock input clock rise time and fall time t cfs t crs - - - 5 ns when using external clock m i2smck output characteristics (v cc = 1.65 v to 3.6 v, v ss = 0 v, t a = - 40 c to + 10 5 c ) parameter symbol pin name conditions value unit remarks min max out put frequency f chs m i2s m ck - - 25 mhz v cc cc < 2.7 v
document number: 002 - 00233 rev. *d page 79 of 109 s6e1c series 11.4.13 smart card interface ch aracteristics (v cc = 1.65 v to 3.6 v, v ss = 0 v, t a = - 40 c to + 10 5 c ) parameter symbol pin name conditions value unit remarks min max output rising time t r icx_ vcc , icx_rst , icx _clk , icx_data c l = 30 pf 4 20 ns output falling time t f 4 20 ns output clock frequency f clk icx _clk - 20 mhz duty cycle ? 45% 55% ? external pull - up resistor (20 k to 50 k ) must be applied to icx_cin pin when its used as smart card reader function.
document number: 002 - 00233 rev. *d page 80 of 109 s6e1c series 11.4.14 sw - dp timing (v cc = 1.65 v to 3.6 v, v ss = 0 v, t a = - 40 c to + 10 5 c ) parameter symbol pin name conditions value unit remarks min max swdio setup time t s ws sw c l k, swdio - 15 - ns swdio hold time t sw h sw c l k, swdio - 15 - ns swdio delay time t sw d swclk, swdio - - 45 ns note: ? external load capacitance c l = 30 pf swdio (when input) swclk swdio (when output) sw d
document number: 002 - 00233 rev. *d page 81 of 109 s6e1c series 11.5 12 - bit a/d converter electrical characteristics of a/d c onverter ( preliminary values ) (v cc = 1.65 v to 3.6 v, v ss = 0 v, t a = - 40c to + 10 5 c) parameter symbol pin name value unit remarks min typ max resolution - - - - 12 bit integral nonl inearity - - - 4.5 - 4.5 lsb differential non linearity - - - 2.5 - + 2.5 lsb zero transition voltage v z t an xx - 15 - + 15 mv full - scale transition voltage v fst an xx avrh - 15 - avrh + 15 mv conversion time 64 - - 1 . 0 - - cc cc < 2.7 v 10 - - 1.65 cc < 1.8 v sampling time 65 ts - 0. 3 - 10 cc cc < 2.7 v 3.0 - 1.65 cc < 1.8 v compare clock cycle 66 tcck - 5 0 - 1000 ns v cc cc < 2.7 v 500 - 1.65 cc < 1.8 v state transition time to operation permission tstt - - - 1.0 ain - - - 7.5 pf analog input resistance r ain - - - 2. 2 k cc cc < 2.7 v 10.5 1.65 cc < 1.8 v interchannel disparity - - - - 4 lsb analog port input leak current - an xx - - 5 ss - avrh v reference voltage - avrh 2.7 - v cc v vcc 2.7v cc vcc < 2.7v - avrl v ss - v ss v 64 the conversion time is the value of sampling time (t s ) + compare time (t c ). the minimum conversion time is computed according to the following conditions: v cc 2.7 v sampling time=0.3 s, compare time=0.7 s 1.8 v cc < 2.7 v sampling time=1.2 s, compare time=2.8 s 1.65 v cc < 1.8 v sampling time=3.0 s, compare t ime=7.0 s ensure that the conversion time satisfies the specifications of the sampling time (t s ) and compare clock cycle (t cck ). for details of the settings of the sampling time and compare clock cycle, refer to "chapter: a/d converter" in "fm0+ family p e ripheral manual analog macro part". the register settings of the a/d converter are reflected in the operation according to the apb bus clock timing. for the number of the apb bus to which the a/d converter is connected, see the peripheral address map . the base clock (hclk) is used to generate the sampling time and the compare clock cycle. 65 the required sampling time varies according to the external impedance. set a sampling time that satisfies (equation 1). 66 the com pare time (t c ) is the result of (equation 2).
document number: 002 - 00233 rev. *d page 82 of 109 s6e1c series (equation 1) t s ( r ain + r ext ) c ain 9 t s : sampling time r ai n : i nput resistance of a/d converter = 2.2 k with 2.7 < vcc < 3.6 i nput resistance of a/d converter = 5. 5 k with 1.8 < vcc < 2.7 i nput resistance of a/d converter = 10.5 k with 1.65 < vcc < 1.8 c ain : i nput capacit ance of a/d converter = 7.5 pf with 1.65 < vcc < 3.6 r ext : output impedance of external circuit (equation 2) t c = t cck 14 t c : compare time t cck : compare clock cycle r ext r ain c omparator an xx analog input pin s c ain analog signal source
document number: 002 - 00233 rev. *d page 83 of 109 s6e1c series definition s of 1 2 - bit a/d converter terms ? resolution : analog variation that is recognized by an a/d converter. ? integral nonl inearity : deviation of the line between the zero - transition point (0b000000000000 0b000000000001) and the full - scale transition point (0b111111111110 0b111111111111) from the actual conversion characteristics. ? differential non linearity : deviation from the ideal value of t he input voltage that is required to change the output code by 1 lsb. integral nonl inearity of digital output n = v nt - {1lsb (n - 1) + v z t } [lsb] 1lsb differential nonlinearity of digital output n = v (n + 1) t - v nt - 1 [lsb] 1lsb 1lsb = v fst C z t 4094 n : a/d converter digital output value. v z t : voltage at whi ch the digital output ch anges from 0x000 to 0x001. v fst : voltage at whi ch the digital output ch anges from 0xffe to 0xfff. v nt : voltage at whi ch the digital output ch anges from 0x(n ? 1) to 0xn. integral nonl inearity differential non linearity digital output digital output actual conversion characteristics actual conversion characteristics ideal characteristics (actually - measured value) actual conversion characteristics actual conversion characteristics (actually - measured value) (actually - measured value) ideal characteristics (actually - measured value) analog input analog input (actually - measured value) 0x001 0x002 0x003 0x004 0x f fd 0x f fe 0x f ff v ss avrh v ss avrh 0x(n - 2) 0x(n - 1) 0x(n+1) 0xn {1 lsb(n - 1) + v zt } v nt v fst v zt v nt v (n+1)t
document number: 002 - 00233 rev. *d page 84 of 109 s6e1c series 11.6 usb ch aracteristics ( v cc = 3.0 v to 3.6 v, v ss = 0 v, t a = - 40 c to + 10 5 c ) parameter symbol pin name conditions value unit schematic reference min max input characteristics input h level voltage v ih udp0, udm0 - 2.0 v cc + 0.3 v 1 input l level voltage v il - v ss C 0.3 0.8 v 1 differential input sensitivity v di - 0.2 - v 2 differential common mode range v cm - 0.8 2.5 v 2 output characteristic output h level voltage v oh external pull - down resistance = 15 k? 2.8 3.6 v 3 output l level voltage v ol external pull - up resistance = 1.5 k? 0.0 0.3 v 3 crossover voltage v crs - 1.3 2.0 v 4 rising time t fr full - speed 4 20 ns 5 falling time t ff full - speed 4 20 ns 5 rising/falling time matching t frfm full - speed 90 111.11 % 5 output impedance z drv full - speed 28 44 ? 6 rising time t lr low - speed 75 300 ns 7 falling time t lf low - speed 75 300 ns 7 rising/falling time matching t lrfm low - speed 80 125 % 7 1. the switching threshold voltage of single - end - receiver of usb i/o buffer is set as within v il (max) = 0.8 v, vih(min) = 2.0 v (ttl input standard). there is some hysteresis to lower noise sensitivity. 2. use differential - receiver to receive usb differential data signal. differential - receiver has 200 mv of differential input sensitivity when the differential data input is within 0.8 v to 2.5 v to the local ground reference level. above voltage range is the common mode input voltage range. 0.8 2.5 common mode input voltage [v] minimum differential input sensitivity [v] 0. 2 1.0
document number: 002 - 00233 rev. *d page 85 of 109 s6e1c series 3. the output drive capability of the driver is below 0.3 v at low - state (v ol ) (to 3.6 v and 1.5 k? load), and 2.8 v or above (to the vss and 1.5 k? load) at high - state (v oh ) 4. the cross voltage of the external differential output signal (d+ / d - ) of usb i/o buffer is within 1.3 v to 2.0 v. 5. the y indicate rising time (trise) and falling time (tfall) of the full - speed differential data signal. they are defined by the time between 10% and 90% of the output signal voltage. for full - speed buffer, tr/tf ratio is regulated as within 10% to minimize rfi emission. 6. usb full - speed connection is performed via twist pair cable shield with 90 ? 15% characteristic impedance (differential mode). usb standard defines that output impedance of usb driver must be in range from 28 ? to 44 ?. so, discrete series resistor (rs) addition is defined to satisfy the above definition and keep balance. when using this usb i/o, use it with 25 ? to 33 ? (recommendation value : 27 ?) series resistor rs . v crs specified range max 2.0v d+ min 1.3v d - trise rising time 90% d+ d - 10% 90% 10% tfall falling time tx d + tx d - rs=27 ? rs=27 ? l =50 pf c l =50 pf full - speed buffer 3 - state enable
document number: 002 - 00233 rev. *d page 86 of 109 s6e1c series 7. they indicate rising time (trise) and falling time (tfall) of the low - speed differential data signal. they are defined by the time between 10% and 90% of the output signal voltage. see low - speed load (com p liance load) for condition s of external load. tx d + tx d - rs rs full - speed buffer 3 - state enable 28 ? to 44 ? equivalent impedance 28 ? to 44 ? equivalent impedance rs series resistor 25 ? to 30 ? series resistor of 27 ? (recommendation value) must be added. and, use resistance with an uncertainty of 5% by e24 sequence. 90% d+ d - 10% 90% 10% tfall falling time
document number: 002 - 00233 rev. *d page 87 of 109 s6e1c series ? low - speed load (upstream port load) C reference 1 ? low - speed load (downstream port load) C reference 2 tx d + tx d - rs=27 ? rs=27 ? c l =50 pf to 150 pf low - speed buffer 3 - state enable rpd c l =50 pf to 150 pf rpd rpd=15 k? tx d + tx d - rs=27 ? rs=27 ? c l =200 pf to 600 pf low - speed buffer 3 - state enable c l =50 pf to 150 pf rpu=1.5 k? vterm=3.6 v vterm
document number: 002 - 00233 rev. *d page 88 of 109 s6e1c series ? low - speed load (compliance load) tx d + tx d - rs=27 ? rs=27 ? c l =200 pf to 450 pf low - speed buffer 3 - state enable c l =200 pf to 450 pf
document number: 002 - 00233 rev. *d page 89 of 109 s6e1c series 11.7 low - voltage d etection ch aracteristics 11.7.1 l ow - voltage d etection r eset ( t a = - 40 c to + 10 5 c ) parameter symbol conditions value unit remarks min typ max detected voltage vdl fixed 67 1.38 1.50 1.60 v when voltage drops released voltage vdh 1.43 1.55 1.65 v when voltage rises lvd stabilization wait time t lvdw - - - 8160 t cycp 68 lvd dl - - - 200 67 the value of low voltage detection reset is always fixed. 68 t cycp indicates the apb1 bus clock cycle time.
document number: 002 - 00233 rev. *d page 90 of 109 s6e1c series 11.7.2 l ow - voltage d etection interrupt ( t a = - 40 c to + 10 5 c ) parameter symbol conditions value unit remarks min typ max detected voltage vdl svhi = 00100 1.56 1.70 1.84 v when voltage drops released voltage vdh 1.61 1.75 1.89 v when voltage rises detected voltage vdl svhi = 00101 1.61 1.75 1.89 v when voltage drops released voltage vdh 1.66 1.80 1.94 v when voltage rises detected voltage vdl svhi = 00110 1.66 1.80 1.94 v when voltage drops released voltage vdh 1.70 1.85 2.00 v when voltage rises detected voltage vdl svhi = 00111 1.70 1.85 2.00 v when voltage drops released voltage vdh 1.75 1.90 2.05 v when voltage rises detected voltage vdl svhi = 01000 1.75 1.90 2.05 v when voltage drops released voltage vdh 1.79 1.95 2.11 v when voltage rises detected voltage vdl svhi = 01001 1.79 1.95 2.11 v when voltage drops released voltage vdh 1.84 2.00 2.16 v when voltage rises detected voltage vdl svhi = 01010 1.84 2.00 2.16 v when voltage drops released voltage vdh 1.89 2.05 2.21 v when voltage rises detected voltage vdl svhi = 01011 1.89 2.05 2.21 v when voltage drops released voltage vdh 1.93 2.10 2.27 v when voltage rises detected voltage vdl svhi = 01100 2.30 2.50 2.70 v when voltage drops released voltage vdh 2.39 2.60 2.81 v when voltage rises detected voltage vdl svhi = 01101 2.39 2.60 2.81 v when voltage drops released voltage vdh 2.48 2.70 2.92 v when voltage rises detected voltage vdl svhi = 01110 2.48 2.70 2.92 v when voltage drops released voltage vdh 2.58 2.80 3.02 v when voltage rises detected voltage vdl svhi = 01111 2.58 2.80 3.02 v when voltage drops released voltage vdh 2.67 2.90 3.13 v when voltage rises detected voltage vdl svhi = 10000 2.67 2.90 3.13 v when voltage drops released voltage vdh 2.76 3.00 3.24 v when voltage rises detected voltage vdl svhi = 10001 2.76 3.00 3.24 v when voltage drops released voltage vdh 2.85 3.10 3.35 v when voltage rises detected voltage vdl svhi = 10010 2.85 3.10 3.35 v when voltage drops released voltage vdh 2.94 3.20 3.46 v when voltage rises detected voltage vdl svhi = 10011 2.94 3.20 3.46 v when voltage drops released voltage vdh 3.04 3.30 3.56 v when voltage rises lvd stabilization wait time t lvdw - - - 8160 t cycp 69 lvd dl - - - 200 69 t cycp represents the apb1 bus clock cycle time.
document number: 002 - 00233 rev. *d page 91 of 109 s6e1c series 11.8 flash memory write/erase characteristics ( v cc = 1.65 v to 3.6 v , t a = - 40 c to + 10 5 c ) parameter value 70 unit remarks min typ max sector erase time large s ector - 1.1 2.7 s the sector erase time includes the time of writing prior to internal erase. small sector - 0.3 0.9 half word (16 - bit) write time - 30 528 w rite / erase cycle and data hold time w rite / erase cycle data hold time ( year ) remarks 1,000 20 th ese value s come from the technology qualification (using arrhenius equation to translate high temperature acceleration test result into average temperature value at + 85c). 10,000 10 70 the typical value is immediately after shipment, the maximum value is guarantee value under 10,000 cycle of erase/write.
document number: 002 - 00233 rev. *d page 92 of 109 s6e1c series 11.9 return time from low - power consumption mode 11.9.1 return f actor: interrupt/wkup the return time from low - power consumption mode is indicated as follows. it is from receiving the return factor to starting the program operation. return c ount t ime ( v cc = 1.65 v to 3.6 v , t a = - 40 c to + 10 5 c ) parameter symbol value unit remarks current mode mode to return typ max 71 sleep mode e ach run mode t icnt 4*hclk oscwt 72+13*hclk +t oscwt 72 rtc mode high - s peed cr run mode low - speed cr run mode sub run mode 34+12*hclk 72+13*hclk oscwt 72+13*hclk +t oscwt 72 deep standby rtc mode deep standby stop mode high - s peed cr run mode 43 281 operation example of return from l ow - p ower consumption mode (by external interrupt 73 ) 71 the maximum value depends on the condition of environment. 72 t oscwt : oscillator stabilization time. 73 external interrupt is set to detecting fall edge. e x t e r n a l i n t e r r u p t t i c n t i n t e r r u p t f a c t o r a c c e p t c p u o p e r a t i o n s t a r t a c t i v e i n t e r r u p t f a c t o r c l e a r b y c p u
document number: 002 - 00233 rev. *d page 93 of 109 s6e1c series operation example of return from low - power consumption mode (by internal resource interrupt 74 ) notes: ? the return factor is different in each low - power consumption modes. see "chapter: low power consumption mode" and "operations of standby modes" in fm0+ family peripheral manual . ? when interrupt recover s, the operation mode that cpu recovers depends on the state before the low - power consumption mode transition. see " chapter : low power consumption mode" in "fm0+ family peripheral manual ". 74 internal resource interrupt is not included in return factor by the kind of low - power consumption mode. i n t e r n a l r e s o u r c e i n t e r r u p t t i c n t i n t e r r u p t f a c t o r a c c e p t c p u o p e r a t i o n s t a r t a c t i v e i n t e r r u p t f a c t o r c l e a r b y c p u
document number: 002 - 00233 rev. *d page 94 of 109 s6e1c series 11.9.2 return f actor: reset the return time from low - power consumption mode is indicated as follows. it is from releasing reset to starting the program operation. return c ount t ime ( v cc = 1.65 v to 3.6 v , t a = - 40 c to + 10 5 c ) parameter symbol value unit remarks current mode mode to return typ max 75 high - speed cr sleep mode main sleep mode pll sleep mode high - speed cr run mode t rcnt 20 22 sub timer mode 148 209 stop mode rtc mode 45 68 deep standby rtc mode deep standby stop mode 43 281 operation example of return from l ow - p ower consumption mode (by initx) 75 the maximum value depends on the accuracy of built - in cr. i n i t x t r c n t i n t e r n a l r e s e t c p u o p e r a t i o n s t a r t r e s e t a c t i v e r e l e a s e
document number: 002 - 00233 rev. *d page 95 of 109 s6e1c series operation example of return from low power consumption mode (by internal resource reset 76 ) notes: ? the return factor is different in each low - power consumption modes. see "chapter: low power consumption mode" and "operations of standby modes" in fm0+ family peripheral manual . ? when interrupt recover s, the operation mode that cpu recover y depends on the state before the low - power consumption mode transition. see " chapter : low power consumption mode" in "fm0+ family peripheral manual ". ? the time during the power - on reset/low - voltage det ection reset is excluded. see " 11.4.7 power - on reset timing in 11.4 ac characteristics in 11 . electrical characteristics " for the detail on the time during the power - on reset/low - voltage detection reset. ? when in recovery from reset, cpu changes to the high - speed cr run mode. when using the main clock or the pll clock, it is necessary to add the main clock oscillation stabilization wait time or th e main pll clock stabilization wait time. ? the internal resource reset means the watchdog reset and the csv reset. 76 internal resource reset is not included in return factor by the kind of low - power consumption mode. i n t e r n a l r e s o u r c e r e s e t t r c n t i n t e r n a l r e s e t c p u o p e r a t i o n s t a r t r e s e t a c t i v e r e l e a s e
document number: 002 - 00233 rev. *d page 96 of 109 s6e1c series 12. ordering information part number flash [kbyte] sram [kbyte] usb2.0 i 2 s package - specific features (see next table) package (tray) s6e1c32d0agv20000 128 16 ? ? 64 - pin plastic ? lqfp (0.5 0 mm pitch) , 64 pin s ( lqd064 ) s6e1c31d0agv20000 64 12 ? ? s6e1c32c0agv20000 128 16 ? ? 48 - pin plastic ? l qfp (0. 50 mm pitch) , 48 pin s ( lqa048 ) s6e1c31c0agv20000 64 12 ? ? s6e1c32b0agp20000 128 16 ? 32 - pin plastic ? l qfp (0. 8 0 mm pitch) , 32 pin s ( lqb032 ) S6E1C31B0AGP20000 64 12 ? s6e1c32d0agn20000 128 16 ? ? 64 - pin plastic ? qfn64 (0.5 0 mm pitch) , 64 pin s ( wns064 ) s6e1c31d0agn20000 64 12 ? ? s6e1c32c0agn20000 128 16 ? ? 48 - pin plastic ? qfn48 (0.5 0 mm pitch) , 48 pin s ( wny048 ) s6e1c31c0agn20000 64 12 ? ? s6e1c32b0agn20000 128 16 ? 32 - pin plastic ? qfn32 (0.5 0 mm pitch) , 32 pin s ( wnu032 ) s6e1c31b0agn20000 64 12 ? s6e1c32b0agu 1h 000 128 16 ? 30 - pin plastic ? wlcsp30 (0.4 0 mm pitch) , 30 pin s ( u 4m 03 0 ) * 7 inch reel only for this mpn s6e1c 1 2d0agv20000 128 16 ? 64 - pin plastic ? lqfp (0.5 0 mm pitch) , 64 pin s ( lqd064 ) s6e1c 1 1d0agv20000 64 12 ? s6e1c 1 2c0agv20000 128 16 ? 48 - pin plastic ? l qfp (0. 50 mm pitch) , 48 pin s ( lqa048 ) s6e1c 1 1c0agv20000 64 12 ? s6e1c 1 2b0agp20000 128 16 32 - pin plastic ? l qfp (0. 8 0 mm pitch) , 32 pin s ( lqb032 ) s6e1c 1 1b0agp20000 64 12 s6e1c 1 2d0agn20000 128 16 ? 64 - pin plastic ? qfn64 (0.5 0 mm pitch) , 64 pin s ( wns064 ) s6e1c 1 1d0agn20000 64 12 ? s6e1c 1 2c0agn20000 128 16 ? 48 - pin plastic ? qfn48 (0.5 0 mm pitch) , 48 pin s ( wny048 ) s6e1c 1 1c0agn20000 64 12 ? s6e1c12b0agn20000 128 16 32 - pin plastic ? qfn32 (0.5 0 mm pitch) , 32 pin s ( wnu032 ) s6e1c1 1 b0agn20000 64 12
document number: 002 - 00233 rev. *d page 97 of 109 s6e1c series feature package 30 wlcsp 32 lqfp 32 qfn 48 lqfp 48 qfn 64 lqfp 64 qfn pin count 30 32 48 64 multi - function serial interface (uart/csio/i 2 c /i 2 s ) 4 ch. (max) ch.0/1/3 without fifo ch. 6 with fifo 6 ch. (max) ch.0/1/3 without fifo ch.4/6/7 with fifo 6 ch. (max) ch.0/1/3 without fifo ch.4/6/7 with fifo i 2 s: no i 2 s: 1 ch (max) ch. 6 with fifo i 2 s: 2 ch (max) ch. 4/6 with fifo external interrupt 7 pins (max), nmi x 1 9 pins (max), nmi x 1 12 pins (max) , nmi x 1 i/o port 24 pins (max) 38 pins (max) 54 pins (max) 12 - bit a/d converter 6 ch . ( 1 unit) 8 ch . ( 1 unit) 8 ch. (1 unit) smart card interface no 1 ch (max) hdmi - cec/ remote control receiver 1 c h.( m ax) ch.1 2 ch (max) ch.0/1 13. acronyms acronym description adc analog - to - digital converter ack acknowledge ahb amba (advanced microcontroller bus architecture) high - performance bus, an arm data transfer bus arm ? advanced risc m achine, a cpu architecture cec consumer electronics control, a command and control interface over hdmi ( high definition multimedia interface ) cmos complementary metal oxide semiconductor cpu central processing unit cr clock and reset crc cyclic redundancy c heck, an error - checking protocol csio clock synchronous serial interface csv clock supervisor cts clear to send, a flow control signal in some data communication interfaces dtsc descriptor system data transfer controller eom end of message fifo first in, first out gpio general - purpose input/output hdmi high definition multimedia interface hdmi - cec high definition multimedia interface - consumer electronics control, see cec i/f interface i 2 c, or iic inter - integrated circuit, a communications protocol i 2 s, or iis inter - ic (integrated circuit) sound , a communications protocol i/o input/output, see also gpio irq interrupt request lin local interconnect network, a communications protocol lvd low - voltage detect mfs multi - function serial msb most significant byte mtb micro trace buffer nmi non - maskable interrupt
document number: 002 - 00233 rev. *d page 98 of 109 s6e1c series acronym description nvic nested vectored interrupt controller os operating system osc oscillator pll phase - locked loop ppg programmable pulse generator pwc pulse - width counter pwm pulse - width modulator ram random access memory rx receive rts request to send, a flow control signal in some data communication interfaces spi serial peripheral interface, a communications protocol sram static random access memory sw - dp serial wire debug port tx transmit uart universal asynchronous receiver transmitter usb universal serial bus
document number: 002 - 00233 rev. *d page 99 of 109 s6e1c series 14. package dimensions package t ype package c ode lqfp - 32 lqb032 002 - 13879 ** d i m ensi o n s s y m b o l m in . no m . m ax. a 1. 6 0 a1 0. 0 5 0. 1 5 b 0. 3 2 0. 4 3 c 0. 1 3 0. 1 8 d 9 . 00 bsc d 1 7 . 0 0 bsc e 0 . 8 0 bs c e e1 l 0. 4 5 0. 6 0 0. 7 5 l 1 0. 3 0 0. 5 0 0. 7 0 9 . 0 0 bs c 7 . 0 0 bs c 0. 3 5 0 8 0. 2 5 1 8 3 2 e b d1 d 5 7 4 e e 1 3 6 4 5 7 0 . 1 0 c a - b d 7 5 2 0 . 2 0 c a - b d 8 0 . 2 0 c a - b d 3 2 s eat i n g p l a n e b s e c t i o n a - a' c 9 s i d e v i ew t o p v i ew a a' 0 . 1 0 c 1 0 b o t t o m vie w 9 1 6 1 7 2 4 2 5 1 8 9 1 6 3 2 2 5 4 2 7 1 7 . 0x7 . 0x1 . 6 m m l qb0 32 r ev * . * package ou t line, 3 2 lea d lq f p
document number: 002 - 00233 rev. *d page 100 of 109 s6e1c series package t ype package c ode lqfp - 48 lqa048 002 - 13731 ** d i m e n si o n s s y m b o l m i n . n o m . m ax . a 1 . 7 0 a1 0 . 0 0 0 . 2 0 b 0 . 1 5 0 . 2 7 c 0 . 0 9 0 . 2 0 d 9 .00 bsc d 1 7.00 bsc e 0.50 bsc e e1 l 0 . 4 5 0 . 6 0 0 . 7 5 l 1 0 . 3 0 0 . 5 0 0 . 7 0 9.00 bsc 7.00 bsc 0 8 d1 d e 1 1 2 4 8 e e 1 4 5 7 4 5 7 3 0 . 2 0 c a - b d 3 b 0 . 1 0 c a - b d 0 . 8 0 c a - b d 8 7 5 2 2 a a' s eat i n g plane a a 1 0.2 5 1 0 b s e c t i o n a - a' c 9 l 1 l 6 0 . 8 0 c 1 4 8 1 3 2 4 3 6 2 5 3 7 1 2 1 3 2 4 2 5 3 6 3 7 7 . 0x7 . 0x1 . 7 m m l q a048 r ev * * package ou t line, 4 8 lea d lq f p
document number: 002 - 00233 rev. *d page 101 of 109 s6e1c series package t ype package c ode lqfp - 64 lqd064 002 - 11499 ** d i m e nsion s s y m b o l m in . n o m . m ax . 0 7 . 1 a a1 0.0 0 0.2 0 b 0.1 5 0. 2 c 0.0 9 0.2 0 d 12 . 00 bsc. d 1 10 . 00 bsc. e 0 .50 bsc e e1 l 0.4 5 0.6 0 0.7 5 l 1 0.3 0 0.5 0 0.7 0 12 . 00 bsc. 10 . 00 bsc. d 1 d e 1 1 6 6 4 4 5 7 e e 1 4 5 7 3 6 3 0.2 0 c a - b d b 0.1 0 c a - b d 0.0 8 c a - b d 8 7 5 2 a a 1 0 . 25 10 b se c t ion a-a ' c 9 l1 l 2 a a ' s e a t i n g plan e 0.0 8 c side v i e w top v i e w b o tt o m vie w 1 7 3 2 3 3 4 8 4 9 1 1 6 1 7 3 2 3 3 4 8 6 4 4 9 package ou t line, 64 le a d lq f p 10 . 0x10 . 0x1 . 7 mm l q d064 re v * *
document number: 002 - 00233 rev. *d page 102 of 109 s6e1c series package t ype package c ode qfn - 32 wnu032 002 - 15907 ** 2 . d i m e n s io n i n g a n d t o l e r a n c in c c o n f o r ms to a sm e y 1 4 . 5 - 1994 . 3 . n i s the t o tal n u mb e r of ter m inals. 4 . dim e n s ion " b " a p p l i e s to m et a l l iz e d t e rm i n a l a nd i s m easure d bet w een 0 . 15 and 0.30 m m fro m t e rm i n al t i p . i f t h e t e rm i n al ha s th e option a l r a diu s on t h e oth e r e n d of th e te r m inal. th e d i m ensi o n " b "sh o u l d n o t be m e as u r ed i n t h at r a d i u s a r ea . 5 . n d refer t o t h e n u m b er o f t e rm inals on d or e side. 6 . m a x . p a c k a g e w a r p a g e i s 0 . 05 mm . 1 . a ll d i m e n s io n s a r e i n m i ll im ete r s. 7 . m a x i m u m a l l o w a bl e burrs i s 0.076 m m in all dir e ctions. 8 . pin # 1 id o n to p wi l l b e l o c a te d w ithin i n dic a t e d zone . 9 . bi l a t e r a l c op l an ar it y zo n e a p p l i e s to t he exp o sed hea t s i n k s lu g a s w e ll a s t h e t e r m i n a l s. n ot e 1 0 . jedec spe c i f ica t i o n n o . re f : n / a d i m ensi o n s no m . m in. b e 3 . 2 0 bs c 5 . 0 0 bs c d a 1 a 5 . 0 0 bs c 0 . 0 0 s ym b o l m ax. 0 . 8 0 0 . 0 5 0 . 5 0 bs c l 0 . 2 0 0 . 2 5 0 . 3 0 e d 2 2 3 . 2 0 bs c e c 0 . 2 5 r ef 0 . 4 0 0 . 3 5 0 . 4 5 s i d e vie w b o tt o m vie w t o p vie w d a e b 0 . 10 c 2 x 0 . 10 c 2 x 0 . 10 c a a1 0 . 08 c c s e a t i n g p l a n e d 2 e2 0 . 10 c a b 0 . 10 c a b 1 3 2 e b 0 . 10 c a b 0 . 05 c c ( nd - 1 ) e i n d e x ma rk 8 4 5 9 l 9 8 9 1 6 2 4 1 7 2 5 p a c k a g e o u t l i n e , 3 2 l ea d q f n 5.00 x 5.00 x 0 .80 mm w nu 032 3.20x 3 . 20 mm epad ( sa w n ) rev**
document number: 002 - 00233 rev. *d page 103 of 109 s6e1c series package t ype package c ode qfn - 48 wny048 002 - 16422 ** 2 . d i m e n s i o n i n g a n d t o l e r a n c i n g c o n f o r m s t o a s m e y 1 4 . 5-1994 . 3 . n i s th e total n u mb e r of te r m in a l s. 4 . d i m e n s i o n " b " a p p l i e s t o m e t a l l i z e d t e r m i n a l a n d i s m eas ur ed be t w ee n 0 . 15 a nd 0 . 30 mm f r o m t e r m i n a l ti p .if t h e t e r m i n a l h as th e o pt i o n a l r a diu s o n t h e oth e r e n d of th e te r m in a l . t h e d i m e n s i o n " b " s h o u l d n o t b e m e a s u r e d i n t h a t r a d i u s a r ea. 5 . n d r efe r to t h e n u m b e r o f t e r m i n als o n d o r e s i de. 6 . m a x . p a c k a g e w a r p a g e i s 0 . 05 mm . 1 . al l dim e n s i o n s a r e in mi l l i m eters. 7 . m a xim u m al l o w a ble b u r r s i s 0 . 0 7 6m m in al l dir e ct i o ns. 8. p i n #1 i d o n t o p w ill be l o ca t ed w it h i n i nd i ca t ed z o ne. 9 . bi l a t e r a l c o pla n a r i t y z o n e a p p l ie s to t h e exposed heat s i n k slu g a s w e l l a s t h e t e r m i n a l s. n o t e 1 0 . je d e c s p e c i f i c a t io n n o . r e f : n / a d i m e nsion s n o m . mi n . b e 4.65 bs c 7.00 bs c d a 1 a 7.00 bs c 0.0 0 s y m b o l m ax. 0.8 0 0.0 5 0.50 bs c l 0.1 8 0.2 5 0.3 0 e d 2 2 4.65 bs c e c 0.30 re f 0.5 0 0.4 5 0.5 5 s i de vie w b o t t o m vie w t o p vie w d a e b 0.1 0 c 2 x 0.1 0 c 2 x a a 1 0.0 5 c c s e a t i n g p l a n e d 2 e 2 0.1 5 c a b 0.1 5 c a b 1 4 8 e b 0.1 0 c a b 0.0 5 c c ( n d - 1 ) e i n d e x m a r k 8 4 5 9 l 9 1 2 3 6 2 5 1 3 2 4 3 7 p a c k a g e o u t l i n e , 4 8 l ea d q f n 7 .00 x 7.00 x 0 .80 mm w n y 048 4.65x 4 . 65 mm epad ( sa w n ) rev**
document number: 002 - 00233 rev. *d page 104 of 109 s6e1c series package t ype package c ode qfn - 64 wns064 002 - 16424 ** 2 . d i m e n s i o n i n g a n d t o l e r a n c i n g c o n f o r m s t o a s m e y 1 4 . 5-1994 . 3 . n i s th e total n u mb e r of te r m in a l s. 4 . d i m e n s i o n " b " a p p l i e s t o m e t a l l i z e d t e r m i n a l a n d i s m eas ur ed be t w ee n 0 . 15 a nd 0 . 30 mm f r o m t e r m i n a l ti p .if t h e t e r m i n a l h as th e o pt i o n a l r a diu s o n t h e oth e r e n d of th e te r m in a l . t h e d i m e n s i o n " b " s h o u l d n o t b e m e a s u r e d i n t h a t r a d i u s a r ea. 5 . n d r efe r to t h e n u m b e r o f t e r m i n als o n d o r e s i de. 6 . m a x . p a c k a g e w a r p a g e i s 0 . 05 mm . 1 . al l dim e n s i o n s a r e in mi l l i m eters. 7 . m a xim u m al l o w a ble b u r r s i s 0 . 0 7 6m m in al l dir e ct i o ns. 8. p i n #1 i d o n t o p w ill be l o ca t ed w it h i n i nd i ca t ed z o ne. 9 . bi l a t e r a l c o pla n a r i t y z o n e a p p l ie s to t h e exposed heat s i n k slu g a s w e l l a s t h e t e r m i n a l s. n o t e 1 0 . je d e c s p e c i f i c a t io n n o . r e f : n / a d i m e nsions n o m . mi n . b e 7.20 bs c 9.00 bs c d a 1 a 9.00 bs c 0.0 0 s y m b o l m ax. 0.8 0 0.0 5 0.50 bs c l 0.2 0 0.2 5 0.3 0 e d 2 2 7.20 bs c e c 0.50 re f 0.4 0 0.3 5 0.4 5 s i d e v i e w b o t t o m v i e w t o p v i e w d a e b 0 . 1 0 c 2 x 0 . 1 0 c 2 x a a 1 0 . 0 5 c c s e a t i n g p l a n e d2 e 2 0 . 1 5 c a b 0 . 1 5 c a b 1 6 4 e b 0 . 1 0 c a b 0 . 0 5 c c ( n d - 1 ) e i n d e x m a r k 8 4 5 9 l 9 1 6 4 8 3 3 4 9 1 7 3 2 p a c k a g e o u t l i n e , 6 4 l ea d q f n 9.00 x 9.00 x 0.80 mm w n s 064 7.20x 7 . 20 mm epad ( sa w n ) rev**
document number: 002 - 00233 rev. *d page 105 of 109 s6e1c series package t ype package c ode wlcsp 30 u4m030 002 - 18455 ** d i m e n s io n s no m . m i n . 2 . 0 0 0 b s c d 1 e 1 e 1 . 6 0 0 b s c 2 . 3 1 0 b s c d a 1 a 2 . 6 9 0 b s c 0 . 1 6 4 s y m b o l m ax . 0 . 5 3 4 0 . 2 2 4 2 . d i m e n s i o n s a n d t o l e r a n c e s m e t h o d s p e r a s m e y 1 4 . 5 - 2009 . t h i s o u t l i n e c o n f o r m s t o j e p 9 5 , s e c tio n 4 . 5 . 3 . b a l l p o s i ti o n d e s i g n ati o n p e r j e p 9 5 , s e c t i o n 3, spp-010 . 4 . " e " r e p r e s e n t s t h e s o l d e r b a l l g r i d p i t ch . 5 . s y m b o l " m d" i s th e b a l l m a t r i x s i ze in th e " d " direc t ion . s y m b o l " m e " i s t h e b a l l m a t r i x s i z e i n t h e " e " d i rec t io n . n i s t h e n u m b e r o f p o p u l a t e d s o l d e r b a l l p o s i t i o n s f o r m a t r i x s i z e m d x m e . 6 . d i m e n s i o n " b " i s m e a s u r e d a t t h e m a x i m u m b a l l d i a m e t e r i n a p l a n e p a r a l l e l t o d a t u m c . 7 . " s d " a n d " s e " a r e m e a s u r e d w i t h r e s p e c t t o d at u m s a a nd b a n d d e f i n e t h e p o s i t i o n o f t h e c e n t e r s o l d e r b a l l i n t h e o u t e r r o w . w h e n t h e r e i s a n o d d n u m b e r o f s o l d e r b a l l s i n t h e o u t e r r o w " sd " or " s e" = 0 . w h e n t h e r e i s a n e v e n n u m b e r o f s o l d e r b a l l s i n t h e o u t e r r o w , " s d " = e d / 2 a nd "se " = e e / 2 . 1 . a l l d i m e n s i o n s a r e i n m i l l i m eters . 8 . a 1 c o r n e r t o b e i d e n t i f i e d b y c h a m f e r , l a s e r o r i n k m ark . m e t a l l ized m a rk i n d e n t a t i o n o r o t h e r m e a n s . m e m d 6 5 b e e e d s d / s e 3 0 0 . 2 4 0 . 3 0 0 . 2 7 0 . 4 0 0 b s c 0 . 4 0 bs c 0 . 2 0 / 0 bs c d e 0 . 0 3 c 0 . 0 3 c 2 x 2 x d 1 e 1 e d e e a 0 . 0 5 c 0 . 0 5 c a b d e t a i l a d e t a i l a s i d e vie w b o tt o m vie w t o p v i e w i n d e x m a r k p i n a 1 cor n e r 8 7 7 6 a b 30 n s e s d a 1 a 2 not e s 1 0 . j e d e c s p e c i f i c a t ion no. r e f: n / a . 9 . " + " i n d i c a t e s t h e t h e o r e t i c a l c e nte r o f d e p o p u l a t e d b a lls . a b c d e f 5 4 3 2 1 2.31x2.69x0.534 m m u 4 m 030 r e v * * package ou t line, 30 ball w l c sp
document number: 002 - 00233 rev. *d page 106 of 109 s6e1c series 15. errata this chapter describes the errata for s6e 1c product family . details include errata trigger conditions, scope of impact, available workaround, and silicon revision applicability. contact your local cypress sales representative if you have questions. 15.1 part numbers affected part number s6e1c32d0agv20000 , s6e1c32c0agv20000 , s6e1c32b0agp20000 , s6e1c32d0agn20000 , s6e1c32c0agn20000 , s6e1c32b0agn20000 s6e1c32b0agu1 h 000 s6e1c31d0agv20000 , s6e1c31c0agv20000 , S6E1C31B0AGP20000 , s6e1c31d0agn20000 , s6e1c31c0agn20000 , s6e1c31b0agn20000 s6e1c 1 2d0agv20000 , s6e1c 1 2c0agv20000 , s6e1c 1 2b0agp20000 , s6e1c 1 2d0agn20000 , s6e1c 1 2c0agn20000 , s6e1c12b0agn20000 s6e1c 1 1d0agv20000 , s6e1c 1 1c0agv20000 , s6e1c 1 1b0agp20000 , s6e1c 1 1d0agn20000 , s6e1c 1 1c0agn20000 , s6e1c1 1 b0agn20000 15.2 qualification status product status: in production ? qual. 15.3 errata summary this table defines the errata applicability to available devices. items p art number silicon revision fix status [1] ahb bus matrix issue refer to 15.1 rev b f ixed in rev c [2] deep standby mode current consumption issue refer to 15.1 rev b , rev c next silicon is not planned. 15.4 errata detail 15.4.1 ahb bus matrix issue ? problem definition the ahb bus matrix logic has two master interfaces (cpu and dstc) and four slave interfaces (ram, flash, ahb and apb). when two master in terfaces (cpu and dstc) access the same slave interface at the same tim e , and when the cpu is in wait cycle, an unnecessary access occurs during the wait cycle and the expect ed access occurs again after the unnecessary access. ? parameters affected n/a ? trigger condition(s) cpu and dstc access the same slave interface at the same tim e . ? scope of impact dstc cannot be used. ? workaround dstc must not use .
document number: 002 - 00233 rev. *d page 107 of 109 s6e1c series ? fix status this issue is fixed in rev c . 15.4.2 deep standby mode current consumption issue ? problem definition the current consumption does not decrease in deep standby mode (deep standby rtc mode and deep standby stop mode) ? parameters affected n/a ? trigg er condition(s) mcu is in deep standby mode and both mainxc b its in spsr and subxc bits in subosc_ctl has not been cleared with 0b00 since power - on. ? scope of impact the current consumption does not decrease. ? workaround clear both mainxc bits in spsr and su bxc bits in subosc_ctl with 0b00 . please note: - output pins become unstable state in a moment right after clearing these register bits with 0b00. - you can set these register bits to any value after they are cleared with 0b00. ? fix status the user uses the workaround to prevent th is issue. the next silicon fixing th is issue is not planned.
document number: 002 - 00233 rev. *d page 108 of 109 s6e1c series document history document title: s6e1c series 32 - bit arm ? cortex ? - m0+ fm0+ microcontroller document number: 002 - 00233 revision ecn orig. of change submission date description of change ** 4896074 teka 08/ 31 /2015 new spec. * a 4955136 teka 10/ 9 /2015 ac/dc characteristics updated. typo fixed in list of pin functions . * b 5158709 yukt 0 3 / 0 4 /2016 added the frequency value of ta = - 1 0 c to + 105 c on 11.4.3 built - in cr oscillation characteristics . added the rem ark of vcc < 0.2v on 11.4.7 power - on reset timing . added the measure condition of icc on 11.3.1 current rating . changed the package outlines to cypress format on 13. package dimensions . changed the package codes to cypress codes on 3. pin assignment and 12. ordering information . *c 5220682 mbgr 0 9 / 07 /2016 consolidated the c series of cypress mcus into one data sheet. minor updates to grammar. made table footnotes consectutive. corrected navigational aids (cross reference link colors). added front matter to data sheet to match cypress corporate style. added tables to differentiate parts in 2 product lineup and 2.1 package dependent features . removed full multiplexed signal names from 4 pin assignment drawing s . added hyperlinks to 5 list of pin functions. 10 pin status in each cpu state: changed several instances of pullup register to pull up resistor. expande d 12 ordering information. fixed typo in memory map. updated logo. removed wlcsp information. update d 11.4.7 power - on reset timing. added 15 erratta. added 13 acronyms. *d 5453786 yska 0 4 / 13 /2017 updated 15 errata (page 10 6 ) updated the schematic for 11.4.7 power - on reset timing ( page 5 6 ) updated 14. package dimensions ( page 99 - 10 5 ) modify expressions of c h annel number s for usb, i 2 s ( page 1 ) added the baud rate spec in 1 1 .4. 9 csio /spi /uart timing.( page 5 8 , 6 0 , 6 2 , 6 4 ) modify typo about main oscillation ( page 4 1 ) modified real - time clock(rtc) in 3. product features in detail deleted second, or day of the week in the interrupt function. (page 8 ) added wlcsp package information ( page 1 , 6 , 6 , 1 7 , 19 , 9 6 , 9 7 , 10 5 ) deleted i 2 c slave related description( page 4 , 6 , 3 8 , 4 1 , 7 6 , 9 7 )
document number: 002 - 00233 rev. *d april 13, 2017 page 109 of 109 s6e1c series sales, solutions, and legal information worldwide sales and design support cypress maintains a worldwide network of offices, solution centers, manufacturers representatives, and distributo rs. to find the office closest to you, visit us at cypress locations . products arm ? cortex ? microcontrollers cypress.com/a rm automotive cypress.com/automotive clocks & buffers cypress.com/clocks interface cypress.com/interface internet of things cypress.com/iot memory cypress.com/memory microcontrollers cypress.com/mcu psoc cypress.com/psoc power management ics cypress.com/pmic touch sensing cypress.com/touch usb controllers cypress.com/ usb wireless/rf cypress.com/wireless psoc ? solutions psoc 1 | psoc 3 | psoc 4 | psoc 5lp | psoc 6 cypress developer community forums | wiced iot forums | projects | video | blogs | training | co mp onents technical support cypress.com/support arm and cortex are the registered trademarks of arm limited in the eu and other countries. all other trademarks or registered trademarks referenced herein are the property of their respective owners. ? cypress semiconductor corporation, 201 5 - 2017 . this document is the property of cypress semiconductor corporation and its subsidiaries, including sp ansion llc (cypress). this document, including any software or firmware included or referenced in this document (software), is owned by cypress under the intell ectual property laws and treaties of the united states and other countries worldwide. cypr ess reserves all rights under such laws and treaties and does not, except as specifically stated in this paragraph, grant any license under its patents, copyrights, trademarks, or other intellectual property rights. if the software is not accompanied by a license agreement and you do not otherwise have a written agreement with cypress governing the use of the software, then cypress hereby grants you a personal, non - exclusive, nontransferable license (without the right to sublicense) (1) under its copyright rights in the software (a) for software provided in source code form, to modify and reproduce the software solely for use with cypress hardware products, only internally within your or ganization, and (b) to distribute the software in binary code form exte rnally to end users (either directly or indirectly through resellers and distributors), solely for use on cypress hardware pr oduct units, and (2) under those claims of cypresss patents that are infringed by the software (as provided by cypress, unmodified ) to make, use, distribute, and import the software solely for use with cypress hardware products. any other use, reproducti on, modification, translation, or compilation of the software is prohibited. to the extent permitted by applicable law, cypress mak es no warranty of any kind, express or implied, with regard to this document or any software or accompanying hardware, including, but not limited to, the implied warranties of merchantability and fitness for a particul ar purpose. to the extent permitted by applicable law, cypress reserves the right to make changes to this document without further notice. cypress does not assume a ny liability arising out of the application or use of any product or circuit described in this document. any information provided in this document, including any sample design information or programming code, is provided only for reference purposes. it is the responsibility of the user of this document to properly design, program, and test the functionality and safety of any applic ation made of this information and any resulting product. cypress products are not designed, intended, or authorized for use as critical components in systems designed or intended for the ope ration of weapons, weapons systems, nuclear installations, life - support devices or systems, other medical devices or systems (including resuscitation equipment and surgical implants), pollution con trol or hazardous substances management, or other uses where the failure of the device or system could cause personal injur y, death, or property damage (unintended uses). a critical component is any component of a device or system whose failure to perform can be reasonably expected to cause the failure of the device or system, or to affect its safety or effectiveness. cypr ess is not liable, in whole or in part, and you shall and hereby do release cypress from any claim, damage, or other liability arising from or related to all unintended uses of cypress products. you shall ind emnify and hold cypress harmless from and again st all claims, costs, damages, and other liabilities, including claims for personal injury or death, arising from or related to any unintended uses of cypress products. cypress, the cypress logo, spansion, the spansion logo, and combinations thereof, wiced , psoc, capsense, ez - usb, f - ram, and traveo are trademarks or registered trademarks of cypress in the united states and other countries. for a more complete list of cypress trademarks, visit cypress.com. other names and b rands may be claimed as property of their respective owners.

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