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preliminary technical data adsp-2188m dsp microcomputer this information applies to a product under development. its characteristics and specifications are subject to change without notice. analog devices assumes no obligation regarding future manufacturing unless otherwise agreed to in writing. one technology way http://www.analog.com/dsp p.o. box 9106 tel: 1-800-analog-d norwood ma 02062-9106 fax: 1-781-461-3010 u.s.a . ? analog devices inc., 1999 rev. pra preli m i n a ry techn i c a l dat a features performance ? 12.5 ns instruction cycle time @ 2.5 volts (internal), 75 mips sustained performance ? single-cycle instruction execution ? single-cycle context switch ? 3-bus architecture allows dual operand fetches in every instruction cycle ? multifunction instructions ? powerdown mode featuring low cmos standby power dissipation with 200 clkin cycle recovery from powerdown condition ? low power dissipation in idle mode integration ? adsp-2100 family code compatible (easy to use algebraic syntax), with instruction set extensions ? 256k bytes of on-chip ram, configured as 48k words on-chip program memory ram and 56k words on-chip data memory ram ? dual purpose program memory for both instruction and data storage ? independent alu, multiplier/accumulator, & barrel shifter computational units ? two independent data address generators ? powerful program sequencer provides zero overhead looping conditional instruction execution ? programmable 16-bit interval timer with prescaler ? 100-lead lqfp system interface ? flexible i/o structure allows 2.5v or 3.3v operation; all inputs tolerate up to 3.6v regardless of mode ? 16-bit internal dma port for high speed access to on-chip memory (mode selectable) ? 4 mbyte memory interface for storage of data tables & program overlays (mode selectable) ? 8-bit dma to byte memory for transparent program and data memory transfers (mode selectable) ? i/o memory interface with 2048 locations supports parallel peripherals (mode selectable) ? programmable memory strobe & separate i/o memory space permits glueless system design ? programmable wait state generation ? two double-buffered serial ports with companding hardware and automatic data buffering ? automatic booting of on-chip program memory from byte-wide external memory, e.g., eprom, or through internal dma port ? six external interrupts ? 13 programmable flag pins provide flexible system signaling ? uart emulation through software sport reconfiguration ? ice-port? emulator interface supports debugging in final systems
april 1999 adsp-2188m preliminary data sheet for current information contact analog devices at (781) 461-3881 this information applies to a product under development. its characteristics and specifications are subject to change with- out notice. analog devices assumes no obligation regarding future manufacturing unless otherwise agreed to in writing. 2 rev. pra general note this data sheet represents preliminary (x- grade) specifications for the adsp-2188m 2.5v processor. general description the adsp-2188m is a single-chip microcomputer optimized for digital signal processing (dsp) and other high speed numeric processing applications. the adsp-2188m combines the adsp-2100 family base architecture (three computational units, data address generators and a program sequencer) with two serial ports, a 16-bit internal dma port, a byte dma port, a programmable timer, flag i/o, extensive interrupt capabilities, and on-chip program and data memory. the adsp-2188m integrates 256k bytes of on-chip memory configured as 48k words (24-bit) of program ram, and 56k words (16-bit) of data ram. power down circuitry is also provided to meet the low power needs of battery operated portable equipment. the adsp-2188m is available in a 100- pin lqfp package. in addition, the adsp-2188m supports new instructions, which include bit manipulationsbit set, bit clear, bit toggle, bit testnew alu constants, new multiplication instruction (x squared), biased rounding, result free alu operations, i/o memory transfers, and global interrupt masking, for increased flexibility. fabricated in a high speed, low power, cmos process, the adsp-2188m operates with a 13.3 ns instruction cycle time. every instruction can execute in a single processor cycle. the adsp-2188ms flexible architecture and comprehensive instruction set allow the processor to perform multiple operations in parallel. in one processor cycle, the adsp-2188m can: ? generate the next program address ? fetch the next instruction ? perform one or two data moves ? update one or two data address pointers ? perform a computational operation this takes place while the processor continues to: ? receive and transmit data through the two serial ports ? receive and/or transmit data through the internal dma port ? receive and/or transmit data through the byte dma port ? decrement timer development system the adsp-2100 family development software, a complete set of tools for software and hardware system development, supports the adsp-2188m. the system builder provides a high level method for defining the architecture of systems under development. the assembler has an algebraic syntax that is easy to program and debug. the linker combines object files into an executable file. the simulator provides an interactive instruction-level simulation with a reconfigurable user interface to display different portions of the hardware environment.
this information applies to a product under development. its characteristics and specifications are subject to change with- out notice. analog devices assumes no obligation regarding future manufacturing unless otherwise agreed to in writing. adsp-2188m preliminary data sheet april 1999 for current information contact analog devices at (781) 461-3881 3 rev. pra a prom splitter generates prom programmer compatible files. the c compiler, based on the free software foundations gnu c compiler, generates adsp-2188m assembly source code. the source code debugger allows programs to be corrected in the c environment. the runtime library includes over 100 ansi-standard mathematical and dsp-specific functions. the ez-kit lite is a hardware/software kit offering a complete development environment for the entire adsp-21xx family: an adsp-218x based evaluation board with pc monitor software plus assembler, linker, simulator, and prom splitter software. the adsp-218x ez-kit lite is a low cost, easy to use hardware platform on which you can quickly get started with your dsp software design. the ez-kit lite includes the following features: ? 33 mhz adsp-218x ? full 16-bit stereo audio i/o with ad1847 soundport? codec ? rs-232 interface to pc with windows 3.1 control software ? ez-ice connector for emulator control ? dsp demo programs the adsp-218x ez-ice? emulator aids in the hardware debugging of an adsp-2188m system. the emulator consists of hardware, host computer resident software, and the target board connector. the adsp-2188m integrates on-chip emulation support with a 14-pin ice-port interface. this interface provides a simpler target board connection that requires fewer mechanical clearance considerations than other adsp-2100 family ez-ices. the adsp-2188m device need not be removed from the target system when using the ez-ice, nor are any adapters needed. due to the small footprint of the ez-ice connector, emulation can be supported in final board designs. the ez-ice performs a full range of functions, including: ? in-target operation ? up to 20 breakpoints ? single-step or full-speed operation ? registers and memory values can be examined and altered ? pc upload and download functions ? instruction-level emulation of program booting and execution ? complete assembly and disassembly of instructions ? c source-level debugging see designing an ez-ice-compatible target system in the adsp-2100 family ez-tools manual (adsp-2181 sections) as well as the designing an ez-ice compatible system section of this data sheet for the exact specifications of the ez-ice target board connector. additional information this data sheet provides a general overview of adsp-2188m functionality. for additional information on the architecture and instruction set of the processor, refer to the adsp-2100 family users manual. for more information about the development tools, refer to the adsp-2100 family development tools data sheet.
april 1999 adsp-2188m preliminary data sheet for current information contact analog devices at (781) 461-3881 this information applies to a product under development. its characteristics and specifications are subject to change with- out notice. analog devices assumes no obligation regarding future manufacturing unless otherwise agreed to in writing. 4 rev. pra architecture overview the adsp-2188m instruction set provides flexible data moves and multifunction (one or two data moves with a computation) instructions. every instruction can be executed in a single processor cycle. the adsp-2188m assembly language uses an algebraic syntax for ease of coding and readability. a comprehensive set of development tools supports program development. figure 1 functional block diagram figure 1 is an overall block diagram of the adsp-2188m. the processor contains three independent computational units: the alu, the multiplier/accumulator (mac) and the shifter. the computational units process 16-bit data directly and have provisions to support multiprecision computations. the alu performs a standard set of arithmetic and logic operations; division primitives are also supported. the mac performs single-cycle multiply, multiply/add and multiply/subtract operations with 40 bits of accumulation. the shifter performs logical and arithmetic shifts, normalization, denormalization, and derive exponent operations. the shifter can be used to efficiently implement numeric format control including multi-word and block floating-point representations. the internal result (r) bus connects the computational units so that the output of any unit may be the input of any unit on the next cycle. a powerful program sequencer and two dedicated data address generators ensure efficient delivery of operands to these computational units. the sequencer supports conditional jumps, subroutine calls and returns in a single cycle. with internal loop counters and loop stacks, the adsp-2188m executes looped code with zero overhead; no explicit jump instructions are required to maintain loops. two data address generators (dags) provide addresses for simultaneous dual operand fetches (from data memory and program memory). each dag maintains and updates four address pointers. whenever the pointer is used to access data (indirect addressing), it is post-modified by the value of one $ ' 6 3 e ? % $ 6 ( $ 5 & + , 7 ( & 7 8 5 ( ' $ 7 $ $ ' ' 5 ( 6 6 * ( 1 ( 5 $ 7 2 5 6 ' $ * ? ' $ * 3 5 2 * 5 $ 0 6 ( 4 8 ( 1 & ( 5 $ 5 , 7 + 0 ( 7 , & 8 1 , 7 6 $ / 8 0 $ & 6 + , ) 7 ( 5 3 5 2 * 5 $ 0 0 ( 0 2 5 < $ ' ' 5 ( 6 6 ' $ 7 $ 0 ( 0 2 5 < $ ' ' 5 ( 6 6 3 5 2 * 5 $ 0 0 ( 0 2 5 < ' $ 7 $ ' $ 7 $ 0 ( 0 2 5 < ' $ 7 $ 3 2 : ( 5 ' 2 : 1 & 2 1 7 5 2 / 0 ( 0 2 5 < % < 7 ( ' 0 $ & 2 1 7 5 2 / / ( 5 ( ; 7 ( 5 1 $ / $ ' ' 5 ( 6 6 % 8 6 ( ; 7 ( 5 1 $ / ' $ 7 $ % 8 6 ) 8 / / 0 ( 0 2 5 < 0 2 ' ( 6 3 2 5 7 6 3 2 5 7 6 ( 5 , $ / 3 2 5 7 6 3 5 2 * 5 $ 0 0 $ % / ( , ? 2 d q g ) / $ * 6 7 , 0 ( 5 , 1 7 ( 5 1 $ / ' 0 $ 3 2 5 7 ( ; 7 ( 5 1 $ / ' $ 7 $ % 8 6 + 2 6 7 0 2 ' ( 2 5 3 u r j u d p 0 h p r u \ ? . [ ? e e l w ' d w d 0 h p r u \ ? . [ ? e e l w
this information applies to a product under development. its characteristics and specifications are subject to change with- out notice. analog devices assumes no obligation regarding future manufacturing unless otherwise agreed to in writing. adsp-2188m preliminary data sheet april 1999 for current information contact analog devices at (781) 461-3881 5 rev. pra of four possible modify registers. a length value may be associated with each pointer to implement automatic modulo addressing for circular buffers. efficient data transfer is achieved with the use of five internal buses: ? program memory address (pma) bus ? program memory data (pmd) bus ? data memory address (dma) bus ? data memory data (dmd) bus ? result (r) bus the two address buses (pma and dma) share a single external address bus, allowing memory to be expanded off-chip, and the two data buses (pmd and dmd) share a single external data bus. byte memory space and i/o memory space also share the external buses. program memory can store both instructions and data, permitting the adsp-2188m to fetch two operands in a single cycle, one from program memory and one from data memory. the adsp-2188m can fetch an operand from program memory and the next instruction in the same cycle. in lieu of the address and data bus for external memory connection, the adsp-2188m may be configured for 16-bit internal dma port (idma port) connection to external systems. the idma port is made up of 16 data/address pins and five control pins. the idma port provides transparent, direct access to the dsps on-chip program and data ram. an interface to low cost byte-wide memory is provided by the byte dma port (bdma port). the bdma port is bidirectional and can directly address up to four megabytes of external ram or rom for off-chip storage of program overlays or data tables. the byte memory and i/o memory space interface supports slow memories and i/o memory-mapped peripherals with programmable wait state generation. external devices can gain control of external buses with bus request/grant signals ( br , bgh , and bg ). one execution mode (go mode) allows the adsp-2188m to continue running from on-chip memory. normal execution mode requires the processor to halt while buses are granted. the adsp-2188m can respond to eleven interrupts. there can be up to six external interrupts (one edge-sensitive, two level-sensitive, and three configurable) and seven internal interrupts generated by the timer, the serial ports (sports), the byte dma port, and the power-down circuitry. there is also a master reset signal.the two serial ports provide a complete synchronous serial interface with optional companding in hardware and a wide variety of framed or frameless data transmit and receive modes of operation. each port can generate an internal programmable serial clock or accept an external serial clock. the adsp-2188m provides up to 13 general-purpose flag pins. the data input and output pins on sport1 can be alternatively configured as an input flag and an output flag. in addition, there are eight flags that are programmable as inputs or outputs, and three flags that are always outputs. a programmable interval timer generates periodic interrupts. a 16-bit count register (tcount) decrements every n processor cycles, where n is a scaling value stored in an 8-bit register (tscale). when the value of the count register reaches zero, an interrupt is generated and the count register is reloaded from a 16-bit period register (tperiod).
april 1999 adsp-2188m preliminary data sheet for current information contact analog devices at (781) 461-3881 this information applies to a product under development. its characteristics and specifications are subject to change with- out notice. analog devices assumes no obligation regarding future manufacturing unless otherwise agreed to in writing. 6 rev. pra serial ports the adsp-2188m incorporates two complete synchronous serial ports (sport0 and sport1) for serial communications and multiprocessor communication. here is a brief list of the capabilities of the adsp-2188m sports. for additional information on serial ports, refer to the adsp-2100 family users manual. ? sports are bidirectional and have a separate, double-buffered transmit and receive section. ? sports can use an external serial clock or generate their own serial clock internally. ? sports have independent framing for the receive and transmit sections. sections run in a frameless mode or with frame synchronization signals internally or externally generated. frame sync signals are active high or inverted, with either of two pulse widths and timings. ? sports support serial data word lengths from 3 to 16 bits and provide optional a-law and -law companding according to ccitt recommendation g.711. ? sport receive and transmit sections can generate unique interrupts on completing a data word transfer. ? sports can receive and transmit an entire circular buffer of data with only one overhead cycle per data word. an interrupt is generated after a data buffer transfer. ? sport0 has a multichannel interface to selectively receive and transmit a 24 or 32 word, time- division multiplexed, serial bitstream. ? sport1 can be configured to have two external interrupts ( irq0 and irq1 ) and the flag in and flag out signals. the internally generated serial clock may still be used in this configuration. pin descriptions the adsp-2188m will be available in a 100-lead lqfp package. in order to maintain maximum functionality and reduce package size and pin count, some serial port, programmable flag, interrupt and external bus pins have dual, multiplexed functionality. the external bus pins are configured during reset only, while serial port pins are software configurable during program execution. flag and interrupt functionality is retained concurrently on multiplexed pins. in cases where pin functionality is reconfigurable, the default state is shown in plain text; alternate functionality is shown in italics. common mode pins pin name(s) # of pins i/o function reset 1 i processor reset input br 1 i bus request input bg 1 o bus grant output bgh 1 o bus grant hung output dms 1 o data memory select output pms 1 o program memory select output ioms 1 o memory select output
this information applies to a product under development. its characteristics and specifications are subject to change with- out notice. analog devices assumes no obligation regarding future manufacturing unless otherwise agreed to in writing. adsp-2188m preliminary data sheet april 1999 for current information contact analog devices at (781) 461-3881 7 rev. pra bms 1 o byte memory select output cms 1 o combined memory select output rd 1 o memory read enable output wr 1 o memory write enable output irq2 pf7 1 i i/o edge- or level-sensitive interrupt request 1 programmable i/o pin irql0 pf6 1 i i/o level-sensitive interrupt requests 1 programmable i/o pin irql1 pf5 1 i i/o level-sensitive interrupt requests 1 programmable i/o pin irqe pf4 1 i i/o edge-sensitive interrupt requests 1 programmable i/o pin mode d pf3 1 i i/o mode select input - checked only coming out of reset programmable i/o pin during normal operation mode c pf2 1 i i/o mode select input - checked only coming out of reset programmable i/o pin during normal operation mode b pf1 1 i i/o mode select input - checked only coming out of reset programmable i/o pin during normal operation mode a pf0 1 i i/o mode select input - checked only coming out of reset programmable i/o pin during normal operation clkin xtal 2 i clock or quartz crystal input clkout 1 o processor clock output sport0 5 i/o serial port i/o pins sport1 irq1:0 , fi, fo 5 i/o serial port i/o pins edge- or level-sensitive interrupts, flag in, flag out 2 pwd 1 i powerdown control input pwdack 1 o powerdown control output fl0, fl1, fl2 3 o output flags v ddint 2 i internal vdd (2.5v) power common mode pins (continued) pin name(s) # of pins i/o function
april 1999 adsp-2188m preliminary data sheet for current information contact analog devices at (781) 461-3881 this information applies to a product under development. its characteristics and specifications are subject to change with- out notice. analog devices assumes no obligation regarding future manufacturing unless otherwise agreed to in writing. 8 rev. pra memory interface pins the adsp-2188m processor can be used in one of two modes, full memory mode, which allows bdma operation with full external overlay memory and i/o capability, or host mode, which allows idma operation with limited external addressing capabilities. the operating mode is determined by the state of the mode c pin during reset and cannot be changed while the processor is running. 1. interrupt/flag pins retain both functions concurrently. if imask is set to enable the corresponding interrupts, then the dsp wi l l vector to the appropriate interrupt vector address when the pin is asserted, either by external devices, or set as a programmable flag . 2. sport configuration determined by the dsp system control register. software configurable 1. in host mode, external peripheral addresses can be decoded using the a0, cms , pms , dms , and ioms signals v ddext 4 i external vdd (2.5v or 3.3v) power gnd 10 i ground ez-port 9 i/o for emulation use full memory mode pins (mode c = 0) pin name # of pins i/o function a13:0 14 o address output pins for program, data, byte and i/o spaces d23:0 24 i/o data i/o pins for program, data, byte and i/o spaces (8 msbs are also used as byte memory addresses) host mode pins (mode c = 1) pin name # of pins i/o function iad15:0 16 i/o idma port address/data bus a0 1 o address pin for external i/o, program, data, or byte access 1 d23:8 16 i/o data i/o pins for program, data byte and i/o spaces iwr 1 i idma write enable ird 1 i idma read enable ial 1 i idma address latch pin is 1 i idma select iack 1 o idma port acknowledge configurable in mode d; open drain common mode pins (continued) pin name(s) # of pins i/o function
this information applies to a product under development. its characteristics and specifications are subject to change with- out notice. analog devices assumes no obligation regarding future manufacturing unless otherwise agreed to in writing. adsp-2188m preliminary data sheet april 1999 for current information contact analog devices at (781) 461-3881 9 rev. pra interrupts the interrupt controller allows the processor to respond to the eleven possible interrupts and reset with minimum overhead. the adsp-2188m provides four dedicated external interrupt input pins, irq2 , irql0 , irql1 , and irqe (shared with the pf7:4 pins). in addition, sport1 may be reconfigured for irq0 , irq1 , flag_in and flag_out, for a total of six external interrupts. the adsp-2188m also supports internal interrupts from the timer, the byte dma port, the two serial ports, software, and the power-down control circuit. the interrupt levels are internally prioritized and individually maskable (except power down and reset). the irq2 , irq0 , and irq1 input pins can be programmed to be either level- or edge-sensitive. irql0 and irql1 are level-sensitive and irqe is edge sensitive. the priorities and vector addresses of all interrupts are shown in table 1. interrupt routines can either be nested with higher priority interrupts taking precedence or processed sequentially. interrupts can be masked or unmasked with the imask register. individual interrupt requests are logically anded with the bits in imask; the highest priority unmasked interrupt is then selected. the power-down interrupt is nonmaskable. the adsp-2188m masks all interrupts for one instruction cycle following the execution of an instruction that modifies the imask register. this does not affect serial port autobuffering or dma transfers. the interrupt control register, icntl, controls interrupt nesting and defines the irq0 , irq1 , and irq2 external interrupts to be either edge- or level-sensitive. the irqe pin is an external edge sensitive interrupt and can be forced and cleared. the irql0 and irql1 pins are external level sensitive interrupts. the ifc register is a write-only register used to force and clear interrupts. on-chip stacks preserve the processor status and are automatically maintained during interrupt handling. the stacks are twelve levels deep to allow interrupt, loop, and subroutine nesting. the following instructions allow global table 1 interrupt priority & interrupt vector addresses source of interrupt interrupt vector address (hex) reset (or power-up with pucr = 1) 0000 (highest priority) power down (nonmaskable) 002c irq2 0004 irql1 0008 irql0 000c sport0 transmit 0010 sport0 receive 0014 irqe 0018 bdma interrupt 001c sport1 transmit or irq1 0020 sport1 receive or irq0 0024 timer 0028 (lowest priority)
april 1999 adsp-2188m preliminary data sheet for current information contact analog devices at (781) 461-3881 this information applies to a product under development. its characteristics and specifications are subject to change with- out notice. analog devices assumes no obligation regarding future manufacturing unless otherwise agreed to in writing. 10 rev. pra enable or disable servicing of the interrupts (including power down), regardless of the state of imask. disabling the interrupts does not affect serial port autobuffering or dma. ena ints; dis ints; when the processor is reset, interrupt servicing is enabled. low power operation the adsp-2188m has three low power modes that significantly reduce the power dissipation when the device operates under standby conditions. these modes are: ? power down ? idle ? slow idle the clkout pin may also be disabled to reduce external power dissipation. power down the adsp-2188m processor has a low power feature that lets the processor enter a very low power dormant state through hardware or software control. here is a brief list of power-down features. refer to the adsp-2100 family users manual, system interface chapter, for detailed information about the power-down feature. ? quick recovery from power down. the processor begins executing instructions in as few as 200 clkin cycles. ? support for an externally generated ttl or cmos processor clock. the external clock can contin- ue running during power down without affecting the lowest power rating and 200 clkin cycle recovery. ? support for crystal operation includes disabling the oscillator to save power (the processor automat- ically waits approximately 4096 clkin cycles for the crystal oscillator to start or stabilize), and let- ting the oscillator run to allow 200 clkin cycle start up. ? power down is initiated by either the power down pin ( pwd ) or the software power-down force bit.interrupt support allows an unlimited number of instructions to be executed before optionally powering down. the power down interrupt also can be used as a non-maskable, edge sensitive in- terrupt. ? context clear/save control allows the processor to continue where it left off or start with a clean context when leaving the power down state. ? the reset pin also can be used to terminate power down. ? power down acknowledge pin indicates when the processor has entered power down. idle when the adsp-2188m is in the idle mode, the processor waits indefinitely in a low power state until an interrupt occurs. when an unmasked interrupt occurs, it is serviced; execution then continues with the instruction following the idle instruction. in idle mode idma, bdma and autobuffer cycle steals still occur.
this information applies to a product under development. its characteristics and specifications are subject to change with- out notice. analog devices assumes no obligation regarding future manufacturing unless otherwise agreed to in writing. adsp-2188m preliminary data sheet april 1999 for current information contact analog devices at (781) 461-3881 11 rev. pra slow idle the idle instruction is enhanced on the adsp-2188m to let the processors internal clock signal be slowed, further reducing power consumption. the reduced clock frequency, a programmable fraction of the normal clock rate, is specified by a selectable divisor given in the idle instruction. the format of the instruction is: idle (n); where n = 16, 32, 64, or 128. this instruction keeps the processor fully functional, but operating at the slower clock rate. while it is in this state, the processors other internal clock signals, such as sclk, clkout, and timer clock, are reduced by the same ratio. the default form of the instruction, when no clock divisor is given, is the standard idle instruction. when the idle (n) instruction is used, it effectively slows down the processors internal clock and thus its response time to incoming interrupts. the one-cycle response time of the standard idle state is increased by n, the clock divisor. when an enabled interrupt is received, the adsp-2188m will remain in the idle state for up to a maximum of n processor cycles (n = 16, 32, 64, or 128) before resuming normal operation. when the idle (n) instruction is used in systems that have an externally generated serial clock (sclk), the serial clock rate may be faster than the processors reduced internal clock rate. under these conditions, interrupts must not be generated at a faster rate than can be serviced, due to the additional time the processor takes to come out of the idle state (a maximum of n processor cycles). system interface figure 2 shows typical basic system configurations with the adsp-2188m, two serial devices, a byte- wide eprom, and optional external program and data overlay memories (mode selectable). programmable wait state generation allows the processor connects easily to slow peripheral devices. the adsp-2188m also provides four external interrupts and two serial ports or six external interrupts and one serial port. host memory mode allows access to the full external data bus, but limits addressing to
april 1999 adsp-2188m preliminary data sheet for current information contact analog devices at (781) 461-3881 this information applies to a product under development. its characteristics and specifications are subject to change with- out notice. analog devices assumes no obligation regarding future manufacturing unless otherwise agreed to in writing. 12 rev. pra a single address bit (a0). additional system peripherals can be added in this mode through the use of external hardware to generate and latch address signals. figure 2 adsp-2188m basic system interface clock signals the adsp-2188m can be clocked by either a crystal or by a ttl-compatible clock signal. the clkin input cannot be halted, changed during operation, or operated below the specified frequency during normal operation. the only exception is while the processor is in the power down state. for additional information, refer to chapter 9, adsp-2100 family users manual for detailed information on this power down feature. if an external clock is used, it should be a ttl-compatible signal running at half the instruction rate. the signal is connected to the processors clkin input. when an external clock is used, the xtal input must be left unconnected. the adsp-2188m uses an input clock with a frequency equal to half the instruction rate; a 37.50 mhz input clock yields a 13.3 ns processor cycle (which is equivalent to 75 mhz). normally, instructions are executed in a single processor cycle. all device timing is relative to the internal instruction clock rate, which is indicated by the clkout signal when enabled. because the adsp-2188m includes an on-chip oscillator circuit, an external crystal may be used. the crystal should be connected across the clkin and xtal pins, with two capacitors connected as shown in figure 3. capacitor values are dependent on crystal type and should be specified by the crystal manufacturer. a parallel-resonant, fundamental frequency, microprocessor-grade crystal should be used. ? ? [ & / 2 & . 2 5 & 5 < 6 7 $ / ) / e ? & / . , 1 ; 7 $ / , 5 4 ? ? 3 ) ? 3 ) ? 6 ( 5 , $ / ' ( 9 , & ( 6 & / . 5 ) 6 2 5 , 5 4 7 ) 6 2 5 , 5 4 ' 7 2 5 ) 2 ' 5 2 5 ) , 6 3 2 5 7 6 ( 5 , $ / ' ( 9 , & ( , 5 4 ( , 5 4 / , 5 4 / ? 3 ) ? 3 ) ? $ e $ ? ' $ 7 $ % < 7 ( 0 ( 0 2 5 < , ? 2 6 3 $ & ( ? 3 ( 5 , 3 + ( 5 $ / 6 ? ' $ 7 $ $ ' ' 5 ' $ 7 $ $ ' ' 5 ? ? / 2 & $ 7 , 2 1 6 2 9 ( 5 / $ < 0 ( 0 2 5 < 7 : 2 ? . 3 0 6 ( * 0 ( 1 7 6 7 : 2 ? . ' 0 6 ( * 0 ( 1 7 6 ' ? e $ e ' ? e ? $ e ' e ? ' ? e ? $ e ? 6 & / . 5 ) 6 7 ) 6 ' 7 ' 5 6 3 2 5 7 $ ' ' 5 e ' $ 7 $ ? e , 2 0 6 $ ' 6 3 e ? ? ? 0 % 0 6 3 0 6 ' 0 6 & 0 6 % 5 % * % * + 3 : ' 3 : ' $ & . & 6 & 6 ? ? [ & / 2 & . 2 5 & 5 < 6 7 $ / & / . , 1 ; 7 $ / ) / e ? 6 ( 5 , $ / ' ( 9 , & ( 6 & / . 5 ) 6 2 5 , 5 4 7 ) 6 2 5 , 5 4 ' 7 2 5 ) 2 ' 5 2 5 ) , 6 3 2 5 7 ? 6 < 6 7 ( 0 , 1 7 ( 5 ) $ & ( 2 5 ? & 2 1 7 5 2 / / ( 5 , ' 0 $ 3 2 5 7 , 5 ' ? ' ? , : 5 ? ' ? , 6 ? ' , $ / ? ' , $ & . ? ' , $ ' e 6 ( 5 , $ / ' ( 9 , & ( 6 & / . 5 ) 6 7 ) 6 ' 7 ' 5 6 3 2 5 7 ? $ ' $ 7 $ ? e ? , 2 0 6 $ ' 6 3 e ? ? ? 0 % 0 6 3 0 6 ' 0 6 & 0 6 % 5 % * % * + 3 : ' 3 : ' $ & . + 2 6 7 0 ( 0 2 5 < 0 2 ' ( ) 8 / / 0 ( 0 2 5 < 0 2 ' ( 0 2 ' ( ' ? 3 ) 0 2 ' ( & ? 3 ) ? 0 2 ' ( % ? 3 ) 0 2 ' ( $ ? 3 ) , 5 4 ? ? 3 ) ? 3 ) ? , 5 4 ( , 5 4 / , 5 4 / ? 3 ) ? 3 ) ? 0 2 ' ( ' ? 3 ) 0 2 ' ( & ? 3 ) ? 0 2 ' ( % ? 3 ) 0 2 ' ( $ ? 3 ) : 5 5 ' : 5 5 ' $ ' 6 3 e ? ? ? 0
this information applies to a product under development. its characteristics and specifications are subject to change with- out notice. analog devices assumes no obligation regarding future manufacturing unless otherwise agreed to in writing. adsp-2188m preliminary data sheet april 1999 for current information contact analog devices at (781) 461-3881 13 rev. pra a clock output (clkout) signal is generated by the processor at the processors cycle rate. this can be enabled and disabled by the clkodis bit in the sport0 autobuffer control register. figure 3 external crystal connections reset the reset signal initiates a master reset of the adsp-2188m. the reset signal must be asserted during the power-up sequence to assure proper initialization. reset during initial power-up must be held long enough to allow the internal clock to stabilize. if reset is activated any time after power up, the clock continues to run and does not require stabilization time. the power-up sequence is defined as the total time required for the crystal oscillator circuit to stabilize after a valid v dd is applied to the processor, and for the internal phase-locked loop (pll) to lock onto the specific crystal frequency. a minimum of 2000 clkin cycles ensures that the pll has locked but does not include the crystal oscillator start-up time. during this power-up sequence the reset signal should be held low. on any subsequent resets, the reset signal must meet the minimum pulse width specification, t rsp . the reset input contains some hysteresis; however, if you use an rc circuit to generate your reset signal, the use of an external schmidt trigger is recommended. the master reset sets all internal stack pointers to the empty stack condition, masks all interrupts and clears the mstat register. when reset is released, if there is no pending bus request and the chip is configured for booting, the boot-loading sequence is performed. the first instruction is fetched from on-chip program memory location 0x0000 once boot loading completes. power supplies the adsp-2188m has separate power supply connections for the internal (v ddint ) and external (v ddext ) power supplies. the internal supply must meet the 2.5v requirement. the external supply can be connected to either a 2.5v or 3.3v supply. all external supply pins must be connected to the same supply. all input and i/o pins can tolerate input voltages up to 3.6v regardless of the external supply voltage. this feature provides maximum flexibility in mixing 2.5v and 3.3 volt components. clk in clkou t xta l ' 6 3
april 1999 adsp-2188m preliminary data sheet for current information contact analog devices at (781) 461-3881 this information applies to a product under development. its characteristics and specifications are subject to change with- out notice. analog devices assumes no obligation regarding future manufacturing unless otherwise agreed to in writing. 14 rev. pra modes of operation setting memory mode memory mode selection for the adsp-2188m is made during chip reset through the use of the mode c pin. this pin is multiplexed with the dsps pf2 pin, so care must be taken in how the mode selection is made. the two methods for selecting the value of mode c are active and passive. passive configuration involves the use a pull-up or pull-down resistor connected to the mode c pin. to minimize power consumption, or if the pf2 pin is to be used as an output in the dsp application, a weak pull-up or pull-down, on the order of 100 k w , can be used. this value should be sufficient to pull the pin to the desired level and still allow the pin to operate as a programmable flag output without undue strain on the processors output driver. for minimum power consumption during powerdown, reconfigure pf2 to be an input, as the pull-up or pull-down will hold the pin in a known state, and will not switch. active configuration involves the use of a three-statable external driver connected to the mode c pin. a drivers output enable should be connected to the dsps reset signal such that it only drives the pf2 pin when reset is active (low). when reset is de-asserted, the driver should three-state, thus allowing full use of the pf2 pin as either an input or output. to minimize power consumption during powerdown, configure the programmable flag as an output when connected to a three-stated buffer. this ensures that the pin will be held at a constant level, and will not oscillate should the three-state drivers level hover around the logic switching point. 1. considered as standard operating settings. using these configurations allows for easier design and better memory management. table 2 adsp-2188m modes of operation mode d mode c mode b mode a booting method x 0 0 0 bdma feature is used to load the first 32 program memory words from the byte memory space. program execution is held off until all 32 words have been loaded. chip is configured in full memory mode. 1 x 0 1 0 no automatic boot operations occur. program execution starts at external memory location 0. chip is configured in full memory mode. bdma can still be used but the processor does not automatically use or wait for these operations. 0 1 0 0 bdma feature is used to load the first 32 program memory words from the byte memory space. program execution is held off until all 32 words have been loaded. chip is configured in host mode. iack has active pull- down. (requires additional hardware). 0 1 0 1 idma feature is used to load any internal memory as desired. program exe- cution is held off until internal program memory location 0 is written to. chip is configured in host mode. iack has active pulldown. 1 1 1 0 0 bdma feature is used to load the first 32 program memory words from the byte memory space. program execution is held off until all 32 words have been loaded. chip is configured in host mode; iack requires external pulldown. (requires additional hardware). 1 1 0 1 idma feature is used to load any internal memory as desired. program exe- cution is held off until internal program memory location 0 is written to. chip is configured in host mode. iack requires external pulldown. 1
this information applies to a product under development. its characteristics and specifications are subject to change with- out notice. analog devices assumes no obligation regarding future manufacturing unless otherwise agreed to in writing. adsp-2188m preliminary data sheet april 1999 for current information contact analog devices at (781) 461-3881 15 rev. pra iack configuration mode d = 0 and in host mode: iack is an active, driven signal and cannot be wire ord. mode d = 1 and in host mode: iack is an open drain and requires an external pulldown, but multiple iack pins can be wire ord together. memory architecture the adsp-2188m provides a variety of memory and peripheral interface options. the key functional groups are program memory, data memory, byte memory, and i/o. refer to the following figures and tables for pm and dm memory allocations in the adsp-2188m. program memory program memory (full memory mode) is a 24-bit-wide space for storing both instruction opcodes and data. the adsp-2188m has 48k words of program memory ram on chip, and the capability of accessing up to two 8k external memory overlay spaces using the external data bus.
april 1999 adsp-2188m preliminary data sheet for current information contact analog devices at (781) 461-3881 this information applies to a product under development. its characteristics and specifications are subject to change with- out notice. analog devices assumes no obligation regarding future manufacturing unless otherwise agreed to in writing. 16 rev. pra program memory (host mode) allows access to all internal memory. external overlay access is limited by a single external address line (a0). external program execution is not available in host mode due to a restricted data bus that is 16-bits wide only. figure 4 program memory table 3 pmovlay bits pmovlay memory a13 a12:0 0, 4, 5, 6, 7 internal not applicable not applicable 1 external overlay 1 0 13 lsbs of address between 0x2000 and 0x3fff 2 external overlay 2 1 13 lsbs of address between 0x2000and 0x3fff $ & & ( 6 6 , % / ( : + ( 1 3 0 2 9 / $ < ; e ; ) ) ) ? ( ; 7 ( 5 1 $ / 0 ( 0 2 5 < ; e ; ) ) ) ? 5 ( 6 ( 5 9 ( ' 5 ( 6 ( 5 9 ( ' 5 ( 6 ( 5 9 ( ' $ & & ( 6 6 , % / ( : + ( 1 3 0 2 9 / $ < ? ; ? e ; ) ) ) ? $ & & ( 6 6 , % / ( : + ( 1 3 0 2 9 / $ < ; ? e ; ) ) ) ? ( ; 7 ( 5 1 $ / 0 ( 0 2 5 < 5 ( 6 ( 5 9 ( ' 5 ( 6 ( 5 9 ( ' [ ? e [ ) ) ) 3 0 2 9 / $ < $ & & ( 6 6 , % / ( : + ( 1 [ ? e [ ) ) ) [ ? e [ ) ) ) $ & & ( 6 6 , % / ( : + ( 1 3 0 2 9 / $ < $ & & ( 6 6 , % / ( : + ( 1 3 0 2 9 / $ < ? 3 0 0 2 ' ( % $ / : $ < 6 $ & & ( 6 6 , % / ( $ 7 $ ' ' 5 ( 6 6 [ e [ ) ) ) 3 0 ? 0 2 ' ( % ? $ & & ( 6 6 , % / ( : + ( 1 3 0 2 9 / $ < [ ? e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e [ ) ) ) [ ? e [ ) ) )
this information applies to a product under development. its characteristics and specifications are subject to change with- out notice. analog devices assumes no obligation regarding future manufacturing unless otherwise agreed to in writing. adsp-2188m preliminary data sheet april 1999 for current information contact analog devices at (781) 461-3881 17 rev. pra $ & & ( 6 6 , % / ( : + ( 1 ' 0 2 9 / $ < ? $ & & ( 6 6 , % / ( : + ( 1 ' 0 2 9 / $ < ; e ; ) ) ) ; e ; ) ) ) ( ; 7 ( 5 1 $ / 0 ( 0 2 5 < $ & & ( 6 6 , % / ( : + ( 1 ' 0 2 9 / $ < ? $ & & ( 6 6 , % / ( : + ( 1 ' 0 2 9 / $ < ? $ & & ( 6 6 , % / ( : + ( 1 ' 0 2 9 / $ < ? ? 0 ( 0 2 5 < 0 $ 3 3 ( ' 5 ( * , 6 7 ( 5 6 [ ) ) ) , 1 7 ( 5 1 $ / ? ? : 2 5 ' 6 [ ' $ 7 $ 0 ( 0 2 5 < $ ' ' 5 [ ) ( ? . , 1 7 ( 5 1 $ / ' 0 2 9 / $ < ? ? ? ? ? ? ? ? 2 5 ( ; 7 ( 5 1 $ / ? . ' 0 2 9 / $ < ? ? [ ) ) ) [ ) ' ) [ ? $ & & ( 6 6 , % / ( : + ( 1 ' 0 2 9 / $ < $ & & ( 6 6 , % / ( : + ( 1 ' 0 2 9 / $ < [ e [ ) ) ) $ & & ( 6 6 , % / ( : + ( 1 ' 0 2 9 / $ < [ e [ ) ) ) [ e [ ) ) ) ' $ 7 $ 0 ( 0 2 5 < $ / : $ < 6 $ & & ( 6 6 , % / ( $ 7 $ ' ' 5 ( 6 6 [ ? e [ ) ) ) , 1 7 ( 5 1 $ / 0 ( 0 2 5 < [ e [ ) ) ) [ e [ ) ) ) [ e [ ) ) ) data memory data memory (full memory mode) is a 16-bit-wide space used for the storage of data variables and for memory-mapped control registers. the adsp-2188m has 56k words on data memory ram on chip. part of this space is used by 32 memory-mapped registers. support also exists for up to two 8k external memory overlay spaces through the external data bus. all internal accesses complete in one cycle. accesses to external memory are timed using the wait states specified by the dwait register and the waitstate mode bit. figure 5 data memory map data memory (host mode) allows access to all internal memory. external overlay access is limited by a single external address line (a0). table 4 dmovlay bits dmovlay memory a13 a12:0 0, 4, 5, 6, 7, 8 internal not applicable not applicable 1 external overlay 1 0 13 lsbs of address between 0x2000 and0x3fff 2 external overlay 2 1 13 lsbs of address between 0x2000and 0x3fff
april 1999 adsp-2188m preliminary data sheet for current information contact analog devices at (781) 461-3881 this information applies to a product under development. its characteristics and specifications are subject to change with- out notice. analog devices assumes no obligation regarding future manufacturing unless otherwise agreed to in writing. 18 rev. pra ? ? ? ? ? ? 3 5 2 * 5 $ 0 0 $ % / ( ) / $ * & 2 0 3 2 6 , 7 ( 6 ( / ( & 7 & 2 1 7 5 2 / ' 0 ? [ ) ( ? ? 3 ) 7 < 3 ( , q s x w 2 x w s x w & 0 6 6 ( / ' l v d e o h & 0 6 ( q d e o h & 0 6 ? z k h u h e l w ? e , 2 0 ? e % 0 ? ? e ' 0 ? ? e 3 0 ? % 0 : $ , 7 ? e l w e ? $ ' 6 3 e ? ? ? 0 ? memory mapped registers (new to the adsp-2188m ) the adsp-2188m has three memory mapped registers that differ from other adsp-21xx family dsps. the slight modifications to these registers (waitstate control, programmable flag & composite select control, and system control) provide the adsp-2188ms waitstate and bms control features. figure 6 waitstate control register ( adsp-2188m ) figure 7 programmable flag & composite select control register ( adsp-2188m ) figure 8 system control register ( adsp-2188m ) ? ? ? ? ? ? : $ , 7 6 7 $ 7 ( & 2 1 7 5 2 / , 2 : $ , 7 : d l w 6 w d w h 0 r g h 6 h o h f w ? $ ' 6 3 e ? ? ? 0 ? 1 r u p d o p r g h ? ' : $ , 7 ? , 2 : $ , 7 e 1 z d l w v w d w h v ? u d q j l q j i u r p w r ? ? ? 1 p r g h ? ' : $ , 7 ? , 2 : $ , 7 e ? 1 z d l w v w d w h v ? u d q j l q j i u r p w r ? ' 0 ? [ ) ) ( ? , 2 : $ , 7 , 2 : $ , 7 ? , 2 : $ , 7 ' : $ , 7 ? ? ? ? ? ? 6 < 6 7 ( 0 & 2 1 7 5 2 / 6 3 2 5 7 ( q d e o h ' l v d e o h ( q d e o h 3 : $ , 7 3 u r j u d p 0 h p r u \ : d l w 6 w d w h v 6 3 2 5 7 & r q i l j x u h ) , ? ) 2 ? , 5 4 ? , 5 4 ? 6 & / . 6 3 2 5 7 ' l v d e o h % 0 6 ? $ ' 6 3 e ? ? ? 0 ? ( q d e o h % 0 6 ? d v r q $ ' 6 3 e ? ? ? ? ' l v d e o h % 0 6 ? h [ f h s w z k h q p h p r u \ v w u r e h v d u h w k u h h e v w d w h g 6 3 2 5 7 ( q d e o h ' l v d e o h ( q d e o h ' 0 ? [ ) ) ) ? 5 ( 6 ( 5 9 ( ' ? $ / : $ < 6 ? $ ' 6 3 e ? ? ? 0 ?
this information applies to a product under development. its characteristics and specifications are subject to change with- out notice. analog devices assumes no obligation regarding future manufacturing unless otherwise agreed to in writing. adsp-2188m preliminary data sheet april 1999 for current information contact analog devices at (781) 461-3881 19 rev. pra i/o space (full memory mode) the adsp-2188m supports an additional external memory space called i/o space. this space is designed to support simple connections to peripherals (such as data converters and external registers) or to bus interface asic data registers. i/o space supports 2048 locations of 16-bit wide data. the lower eleven bits of the external address bus are used; the upper three bits are undefined. two instructions were added to the core adsp-2100 family instruction set to read from and write to i/o memory space. the i/o space also has four dedicated three-bit wait state registers, iowait0-3, which in combination with the waitstate mode bit, specify up to 15 wait states to be automatically generated for each of four regions. the wait states act on address ranges as shown in table 5. composite memory select ( cms ) the adsp-2188m has a programmable memory select signal that is useful for generating memory select signals for memories mapped to more than one space. the cms signal is generated to have the same timing as each of the individual memory select signals ( pms , dms , bms , ioms ) but can combine their functionality. each bit in the cmssel register, when set, causes the cms signal to be asserted when the selected memory select is asserted. for example, to use a 32k word memory to act as both program and data memory, set the pms and dms bits in the cmssel register and use the cms pin to drive the chip select of the memory, and use either dms or pms as the additional address bit. the cms pin functions like the other memory select signals with the same timing and bus request logic. a 1 in the enable bit causes the assertion of the cms signal at the same time as the selected memory select signal. all enable bits default to 1 at reset, except the bms bit. byte memory select ( bms ) the adsp-2188ms bms disable feature combined with the cms pin lets you use multiple memories in the byte memory space. for example, an eprom could be attached to the bms select, and an sram could be connected to cms . because at reset bms is enabled, the eprom would be used for booting. after booting, software could disable bms and set the cms signal to respond to bms , enabling the sram. byte memory the byte memory space is a bidirectional, 8-bit-wide, external memory space used to store programs and data. byte memory is accessed using the bdma feature. the byte memory space consists of 256 pages, each of which is 16k x 8. the byte memory space on the adsp-2188m supports read and write operations as well as four different data formats. the byte memory uses data bits 15:8 for data. the byte memory uses data bits table 5 wait states address range wait state register 0x000C0x1ff iowait0 and wait state mode select bit 0x200C0x3ff iowait1 and wait state mode select bit 0x400C0x5ff iowait2 and wait state mode select bit 0x600C0x7ff iowait3 and wait state mode select bit
april 1999 adsp-2188m preliminary data sheet for current information contact analog devices at (781) 461-3881 this information applies to a product under development. its characteristics and specifications are subject to change with- out notice. analog devices assumes no obligation regarding future manufacturing unless otherwise agreed to in writing. 20 rev. pra 23:16 and address bits 13:0 to create a 22-bit address. this allows up to a 4 meg x 8 (32 megabit) rom or ram to be used without glue logic. all byte memory accesses are timed by the bmwait register and the waitstate mode bit. byte memory dma (bdma, full memory mode) the byte memory dma controller allows loading and storing of program instructions and data using the byte memory space. the bdma circuit is able to access the byte memory space while the processor is operating normally and steals only one dsp cycle per 8-, 16- or 24-bit word transferred. figure 9 bdma control register the bdma circuit supports four different data formats which are selected by the btype register field. the appropriate number of 8-bit accesses are done from the byte memory space to build the word size selected. table 6 shows the data formats supported by the bdma circuit. unused bits in the 8-bit data memory formats are filled with 0s. the biad register field is used to specify the starting address for the on-chip memory involved with the transfer. the 14-bit bead register specifies the starting address for the external byte memory space. the 8-bit bmpage register specifies the starting page for the external byte memory space. the bdir register field selects the direction of the transfer. finally, the 14-bit bwcount register specifies the number of dsp words to transfer and initiates the bdma circuit transfers. bdma accesses can cross page boundaries during sequential addressing. a bdma interrupt is generated on the completion of the number of transfers specified by the bwcount register. the bwcount register is updated after each transfer so it can be used to check the status of the transfers. when it reaches zero, the transfers have finished and a bdma interrupt is generated. the bmpage and bead registers must not be accessed by the dsp during bdma operations. table 6 data formats btype internal memory space word size alignment 00 program memory 24 full word 01 data memory 16 full word 10 data memory 8 msbs 11 data memory 8 lsbs ? ? ? ? ? ? % ' 0 $ & 2 1 7 5 2 / % 7 < 3 ( % ' , 5 / 2 $ ' ) 5 2 0 % 0 6 7 2 5 ( 7 2 % 0 % ' 0 $ 2 9 ( 5 / $ < % , 7 6 % & 5 5 8 1 ' 8 5 , 1 * % ' 0 $ + $ / 7 ' 8 5 , 1 * % ' 0 $ % 0 3 $ * ( ' 0 ? [ ) ( ?
this information applies to a product under development. its characteristics and specifications are subject to change with- out notice. analog devices assumes no obligation regarding future manufacturing unless otherwise agreed to in writing. adsp-2188m preliminary data sheet april 1999 for current information contact analog devices at (781) 461-3881 21 rev. pra the source or destination of a bdma transfer will always be on-chip program or data memory. when the bwcount register is written with a nonzero value the bdma circuit starts executing byte memory accesses with wait states set by bmwait. these accesses continue until the count reaches zero. when enough accesses have occurred to create a destination word, it is transferred to or from on-chip memory. the transfer takes one dsp cycle. dsp accesses to external memory have priority over bdma byte memory accesses. the bdma context reset bit (bcr) controls whether the processor is held off while the bdma accesses are occurring. setting the bcr bit to 0 allows the processor to continue operations. setting the bcr bit to 1 causes the processor to stop execution while the bdma accesses are occurring, to clear the context of the processor, and start execution at address 0 when the bdma accesses have completed. the bdma overlay bits specify the ovlay memory blocks to be accessed for internal memory. the bmwait field, which has 4-bits on adsp-2188m, lets you select up to 15 waitstates for bdma transfers. internal memory dma port (idma port; host memory mode) the idma port provides an efficient means of communication between a host system and the adsp- 2188m. the port is used to access the on-chip program memory and data memory of the dsp with only one dsp cycle per word overhead. the idma port cannot be used, however, to write to the dsps memory-mapped control registers. a typical idma transfer process is described as follows: 1. host starts idma transfer 2. host checks iack control line to see if the dsp is busy 3. host uses is and ial control lines to latch either the dma starting address (idmaa) or the pm/ dm ovlay selection into the dsps idma control registers. if bit 15 = 1, the value of bits 7:0 represent the idma overlay: bits 14:8 must be set to 0. if bit 15 = 0, the value of bits 13:0 represent the starting address of internal memory to be accessed and bit 14 reflects pm or dm for access. 4. host uses is and ird (or iwr) to read (or write) dsp internal memory (pm or dm). 5. host checks iack line to see if the dsp has completed the previous idma operation. 6. host ends idma transfer. the idma port has a 16-bit multiplexed address and data bus and supports 24-bit program memory. the idma port is completely asynchronous and can be written while the adsp-2188m is operating at full speed. the dsp memory address is latched and then is automatically incremented after each idma transaction. an external device can therefore access a block of sequentially addressed memory by specifying only the starting address of the block. this increases throughput as the address does not have to be sent for each memory access. idma port access occurs in two phases. the first is the idma address latch cycle. when the acknowledge is asserted, a 14-bit address and 1-bit destination type can be driven onto the bus by an external device. the address specifies an on-chip memory location, the destination type specifies whether it is a dm or pm access. the falling edge of the idma address latch signal ( ial ) or the missing edge of the idma select signal ( is ) latches this value into the idmaa register. once the address is stored, data can then be either read from, or written to, the adsp-2188ms on- chip memory. asserting the select line ( is ) and the appropriate read or write line ( ird and iwr respectively) signals the adsp-2188m that a particular transaction is required. in either case, there is
april 1999 adsp-2188m preliminary data sheet for current information contact analog devices at (781) 461-3881 this information applies to a product under development. its characteristics and specifications are subject to change with- out notice. analog devices assumes no obligation regarding future manufacturing unless otherwise agreed to in writing. 22 rev. pra a one-processor-cycle delay for synchronization. the memory access consumes one additional processor cycle. once an access has occurred, the latched address is automatically incremented, and another access can occur. through the idmaa register, the dsp can also specify the starting address and data format for dma operation. asserting the idma port select ( is ) and address latch enable (ial) directs the adsp-2188m to write the address onto the iad0-14 bus into the idma control register. if bit 15 is set to 0, idma latches the address. if bit 15 is set to 1, idma latches into the ovlay register.this register, shown below, is memory mapped at address dm (0x3fe0). note that the latched address (idmaa) cannot be read back by the host. refer to the following figures for more information on idma and dma memory maps. figure 10 idma control/ovlay registers ? ? ? ? ? ? , ' 0 $ 2 9 ( 5 / $ < ' 0 ? [ ) ( ? ? , ' ' 0 2 9 / $ < , ' 3 0 2 9 / $ < 5 ( 6 ( 5 9 ( ' 6 ( 7 7 2 ? ? ? ? ? ? , ' 0 $ & 2 1 7 5 2 / ? 8 8 1 ' ( ) , 1 ( ' $ 7 5 ( 6 ( 7 ? 8 ' 0 ? [ ) ( ? , ' 0 $ $ $ ' ' 5 ( 6 6 , ' 0 $ ' ' h v w l q d w l r q p h p r u \ w \ s h ? 3 0 ' 0 8 8 8 8 8 8 8 8 8 8 8 8 8 8
this information applies to a product under development. its characteristics and specifications are subject to change with- out notice. analog devices assumes no obligation regarding future manufacturing unless otherwise agreed to in writing. adsp-2188m preliminary data sheet april 1999 for current information contact analog devices at (781) 461-3881 23 rev. pra figure 11 direct memory access-pm and dm memory maps bootstrap loading (booting) the adsp-2188m has two mechanisms to allow automatic loading of the internal program memory after reset. the method for booting is controlled by the mode a, b, and c configuration bits. when the mode pins specify bdma booting, the adsp-2188m initiates a bdma boot sequence when reset is released. the bdma interface is set up during reset to the following defaults when bdma booting is specified: the bdir, bmpage, biad, and bead registers are set to 0, the btype register is set to 0 to specify program memory 24 bit words, and the bwcount register is set to 32. this causes 32 words of on- chip program memory to be loaded from byte memory. these 32 words are used to set up the bdma to load in the remaining program code. the bcr bit is also set to 1, which causes program execution to be held off until all 32 words are loaded into on-chip program memory. execution then begins at address 0. the adsp-2100 family development software (revision 5.02 and later) fully supports the bdma booting feature and can generate byte memory space compatible boot code. the idle instruction can also be used to allow the processor to hold off execution while booting continues through the bdma interface. for bdma accesses while in host mode, the addresses to boot memory must be constructed externally to the adsp-2188m. the only memory address bit provided by the processor is a0. $ & & ( 6 6 , % / ( : + ( 1 ' 0 2 9 / $ < ? $ & & ( 6 6 , % / ( : + ( 1 ' 0 2 9 / $ < ? 1 2 7 ( ? , ' 0 $ $ 1 ' % ' 0 $ + $ 9 ( 6 ( 3 $ 5 $ 7 ( ' 0 $ & 2 1 7 5 2 / 5 ( * , 6 7 ( 5 6 $ & & ( 6 6 , % / ( : + ( 1 3 0 2 9 / $ < $ & & ( 6 6 , % / ( : + ( 1 3 0 2 9 / $ < $ & & ( 6 6 , % / ( : + ( 1 3 0 2 9 / $ < [ ? e [ ) ) ) [ ? e [ ) ) ) [ ? e [ ) ) ) ' 0 $ 3 5 2 * 5 $ 0 0 ( 0 2 5 < 2 9 / $ < $ / : $ < 6 $ & & ( 6 6 , % / ( $ 7 $ ' ' 5 ( 6 6 [ e [ ) ) ) ' 0 $ ' $ 7 $ 0 ( 0 2 5 < 2 9 / $ < $ & & ( 6 6 , % / ( : + ( 1 ' 0 2 9 / $ < $ & & ( 6 6 , % / ( : + ( 1 ' 0 2 9 / $ < $ & & ( 6 6 , % / ( : + ( 1 ' 0 2 9 / $ < [ e [ ) ) ) [ e [ ) ) ) [ e [ ) ) ) $ / : $ < 6 $ & & ( 6 6 , % / ( $ 7 $ ' ' 5 ( 6 6 [ ? e [ ) ) ) [ e [ ) ) ) [ e [ ) ) ) $ & & ( 6 6 , % / ( : + ( 1 3 0 2 9 / $ < ? $ & & ( 6 6 , % / ( : + ( 1 3 0 2 9 / $ < ? [ ? e [ ) ) ) [ ? e [ ) ) ) $ & & ( 6 6 , % / ( : + ( 1 ' 0 2 9 / $ < ? [ e [ ) ) )
april 1999 adsp-2188m preliminary data sheet for current information contact analog devices at (781) 461-3881 this information applies to a product under development. its characteristics and specifications are subject to change with- out notice. analog devices assumes no obligation regarding future manufacturing unless otherwise agreed to in writing. 24 rev. pra idma port booting the adsp-2188m can also boot programs through its internal dma port. if mode c = 1, mode b = 0, and mode a = 1, the adsp-2188m boots from the idma port. idma feature can load as much on-chip memory as desired. program execution is held off until on-chip program memory location 0 is written to. bus request & bus grant the adsp-2188m can relinquish control of the data and address buses to an external device. when the external device requires access to memory, it asserts the bus request (br) signal. if the adsp- 2188m is not performing an external memory access, then it responds to the active br input in the following processor cycle by: ? three-stating the data and address buses and the pms , dms , bms , cms , ioms , rd , wr output drivers, ? asserting the bus grant ( bg ) signal, and ? halting program execution. if go mode is enabled, the adsp-2188m will not halt program execution until it encounters an instruction that requires an external memory access. if the adsp-2188m is performing an external memory access when the external device asserts the br signal, then it will not three-state the memory interfaces or assert the bg signal until the processor cycle after the access completes. the instruction does not need to be completed when the bus is granted. if a single instruction requires two external memory accesses, the bus will be granted between the two accesses. when the br signal is released, the processor releases the bg signal, re-enables the output drivers and continues program execution from the point where it stopped. the bus request feature operates at all times, including when the processor is booting and when reset is active. the bgh pin is asserted when the adsp-2188m requires the external bus for a memory or bdma access, but is stopped. the other device can release the bus by deasserting bus request. once the bus is released, the adsp-2188m deasserts bg and bgh and executes the external memory access. flag i/o pins the adsp-2188m has eight general purpose programmable input/output flag pins. they are controlled by two memory mapped registers. the pftype register determines the direction, 1 = output and 0 = input. the pfdata register is used to read and write the values on the pins. data being read from a pin configured as an input is synchronized to the adsp-2188ms clock. bits that are programmed as outputs will read the value being output. the pf pins default to input during reset. in addition to the programmable flags, the adsp-2188m has five fixed-mode flags, flag_in, flag_out, fl0, fl1, and fl2. fl0-fl2 are dedicated output flags. flag_in and flag_out are available as an alternate configuration of sport1. note: pins pf0, pf1, pf2 and pf3 are also used for device configuration during reset.
this information applies to a product under development. its characteristics and specifications are subject to change with- out notice. analog devices assumes no obligation regarding future manufacturing unless otherwise agreed to in writing. adsp-2188m preliminary data sheet april 1999 for current information contact analog devices at (781) 461-3881 25 rev. pra 3 5 2 * 5 $ 0 0 $ % / ( , ? 2 ( 5 ( 6 ( 7 $ ' 6 3 e ? ? ? 0 5 ( 6 ( 7 0 2 ' ( $ ? 3 ) 2 n w w w w instruction set description the adsp-2188m assembly language instruction set has an algebraic syntax that was designed for ease of coding and readability. the assembly language, which takes full advantage of the processors unique architecture, offers the following benefits: ? the algebraic syntax eliminates the need to remember cryptic assembler mnemonics. for example, a typical arithmetic add instruction, such as ar = ax0 + ay0, resembles a simple equation. ? every instruction assembles into a single, 24-bit word that can execute in a single instruction cycle. ? the syntax is a superset adsp-2100 family assembly language and is completely source and object code compatible with other family members. programs may need to be relocated to utilize on-chip memory and conform to the adsp-2188ms interrupt vector and reset vector map. ? sixteen condition codes are available. for conditional jump, call, return, or arithmetic instructions, the condition can be checked and the operation executed in the same instruction cycle. ? multifunction instructions allow parallel execution of an arithmetic instruction with up to two fetches or one write to processor memory space during a single instruction cycle. designing an ez-ice-compatible system the adsp-2188m has on-chip emulation support and an ice-port, a special set of pins that interface to the ez-ice. these features allow in-circuit emulation without replacing the target system processor by using only a 14-pin connection from the target system to the ez-ice. target systems must have a 14-pin connector to accept the ez-ices in-circuit probe, a 14-pin plug. issuing the chip reset command during emulation causes the dsp to perform a full chip reset, including a reset of its memory mode. therefore, it is vital that the mode pins are set correctly prior to issuing a chip reset command from the emulator user interface. if you are using a passive method of maintaining mode information (as discussed in setting memory modes) then it does not matter that the mode information is latched by an emulator reset. however, if you are using the reset pin as a method of setting the value of the mode pins, then you have to take into consideration the effects of an emulator reset. one method of ensuring that the values located on the mode pins are those desired is to construct a circuit like the one shown in figure 12. this circuit forces the value located on the mode a pin to logic high; regardless if it latched via the reset or ereset pin . figure 12 mode a pin/ez-ice circuit see the adsp-2100 family ez-tools data sheet for complete information on ice products.
april 1999 adsp-2188m preliminary data sheet for current information contact analog devices at (781) 461-3881 this information applies to a product under development. its characteristics and specifications are subject to change with- out notice. analog devices assumes no obligation regarding future manufacturing unless otherwise agreed to in writing. 26 rev. pra the ice-port interface consists of the following adsp-2188m pins: ebr , eint , ee, ebg , eclk, ereset , elin, ems , and elout these adsp-2188m pins must be connected only to the ez-ice connector in the target system. these pins have no function except during emulation, and do not require pull-up or pull-down resistors. the traces for these signals between the adsp-2188m and the connector must be kept as short as possible, no longer than 3 inches. the following pins are also used by the ez-ice: br , bg , reset , and gnd the ez-ice uses the ee (emulator enable) signal to take control of the adsp-2188m in the target system. this causes the processor to use its ereset , ebr , and ebg pins instead of the reset , br , and bg pins. the bg output is three-stated. these signals do not need to be jumper-isolated in your system. the ez-ice connects to your target system via a ribbon cable and a 14-pin female plug. the female plug is plugged onto the 14-pin connector (a pin strip header) on the target board. target board connector for ez-ice probe the ez-ice connector (a standard pin strip header) is shown in figure 13. you must add this connector to your target board design if you intend to use the ez-ice. be sure to allow enough room in your system to fit the ez-ice probe onto the 14-pin connector. figure 13 target board connector for ez-ice the 14-pin, 2-row pin strip header is keyed at the pin 7 locationyou must remove pin 7 from the header. the pins must be 0.025 inch square and at least 0.20 inch in length. pin spacing should be 0.1 x 0.1 inches. the pin strip header must have at least 0.15 inch clearance on all sides to accept the ez- ice probe plug. pin strip headers are available from vendors such as 3m, mckenzie, and samtec. target memory interface for your target system to be compatible with the ez-ice emulator, it must comply with the memory interface guidelines listed below. ? ? ? ? ? ? * 1 ' . ( < ? 1 2 3 , 1 ? 5 ( 6 ( 7 % 5 % * 7 2 3 9 , ( : ( % * ( % 5 ( / 2 8 7 ( ( ( , 1 7 ( / , 1 ( & / . ( 0 6 ( 5 ( 6 ( 7
this information applies to a product under development. its characteristics and specifications are subject to change with- out notice. analog devices assumes no obligation regarding future manufacturing unless otherwise agreed to in writing. adsp-2188m preliminary data sheet april 1999 for current information contact analog devices at (781) 461-3881 27 rev. pra pm, dm, bm, iom, & cm design your program memory (pm), data memory (dm), byte memory (bm), i/o memory (iom), and composite memory (cm) external interfaces to comply with worst case device timing requirements and switching characteristics as specified in this data sheet. the performance of the ez- ice may approach published worst case specification for some memory access timing requirements and switching characteristics. note: if your target does not meet the worst case chip specification for memory access parameters, you may not be able to emulate your circuitry at the desired clkin frequency. depending on the severity of the specification violation, you may have trouble manufacturing your system as dsp components statistically vary in switching characteristic and timing requirements within published limits. restriction: all memory strobe signals on the adsp-2188m ( rd , wr , pms , dms , bms , cms , and ioms ) used in your target system must have 10 k w pull-up resistors connected when the ez-ice is being used. the pull-up resistors are necessary because there are no internal pull-ups to guarantee their state during prolonged three-state conditions resulting from typical ez-ice debugging sessions. these resistors may be removed at your option when the ez-ice is not being used. target system interface signals when the ez-ice board is installed, the performance on some system signals change. design your system to be compatible with the following system interface signal changes introduced by the ez-ice board: ? ez-ice emulation introduces an 8 ns propagation delay between your target circuitry and the dsp on the reset signal. ? ez-ice emulation introduces an 8 ns propagation delay between your target circuitry and the dsp on the br signal. ? ez-ice emulation ignores reset and br when single- stepping. ? ez-ice emulation ignores reset and br when in emulator space (dsp halted). ? ez-ice emulation ignores the state of target br in certain modes. as a result, the target system may take control of the dsps external memory bus only if bus grant ( bg ) is asserted by the ez- ice boards dsp.
april 1999 adsp-2188m preliminary data sheet for current information contact analog devices at (781) 461-3881 this information applies to a product under development. its characteristics and specifications are subject to change with- out notice. analog devices assumes no obligation regarding future manufacturing unless otherwise agreed to in writing. 28 rev. pra adsp-2188m Celectrical specifications 1. the adsp-2188m is 3.3v tolerant (always accepts up to 3.6 volt max v ih ), but voltage compliance (on outputs, v oh ) depends on the input v ddext ; because v oh (max) ? v ddext (max). this applies to bidirectional pins (d0Cd23, rfs0, rfs1, sclk0, sclk1, tfs0, tfs1, a1Ca13, pf0Cpf7) and input only pins (clkin, reset , br , dr0, dr1, pwd ). recommended operating conditions parameter k grade b grade unit min max min max v ddint 2.37 2.63 tbd tbd v v ddext 2.37 3.6 tbd tbd v v input 1 v il = -0.3 v ih = 3.6 tbd tbd v t amb 0 +70 -40 +85 c electrical characteristics parameter test conditions k/b grades unit min ty p max v , + , hi-level input voltage 1, 2 @ v ' ' , 1 7 = max 1.5 v v , + , hi-level clkin voltage @ v ' ' , 1 7 = max 2.0 v v , / , lo-level input voltage 1, 3 @ v ' ' , 1 7 = min 0.7 v v 2 + , hi-level output voltage 1, 4, 5 @ v ' ' ( ; 7 = min, i 2 + = C0.5 ma 2.0 v @ v ' ' ( ; 7 = 3.0v, i 2 + = C0.5 ma 2.4 v @ v ' ' ( ; 7 = min, i 2 + = C100 a 6 v ' ' ( ; 7 -0.3 v v 2 / , lo-level output voltage 1, 4, 5 @ v ' ' ( ; 7 = min, i 2 / = 2 ma 0.4 v i , + , hi-level input current 3 @ v ' ' , 1 7 = max, v , 1 = 3.6v 10 m a i , / , lo-level input current 3 @ v ' ' , 1 7 = max, v , 1 = 0 v 10 m a
this information applies to a product under development. its characteristics and specifications are subject to change with- out notice. analog devices assumes no obligation regarding future manufacturing unless otherwise agreed to in writing. adsp-2188m preliminary data sheet april 1999 for current information contact analog devices at (781) 461-3881 29 rev. pra 1. bidirectional pins: d0Cd23, rfs0, rfs1, sclk0, sclk1, tfs0, tfs1, a1Ca13, pf0Cpf7. 2. input only pins: reset , br , dr0, dr1, pwd . 3. input only pins: clkin, reset , br , dr0, dr1, pwd . 4. output pins: bg , pms , dms , bms , ioms , cms , rd , wr , pwdack, a0, dt0, dt1, clkout, fl2-0, bgh. 5. although specified for ttl outputs, all adsp-2188m outputs are cmos-compatible and will drive to v ddext and gnd, assuming no dc loads. 6. guaranteed but not tested. 7. three-statable pins: a0Ca13, d0-d23, pms , dms , bms , ioms , cms , rd , wr , dt0, dt1, sclk0, sclk1, tfs0, tfs1, rfs0, rsf1, pf0Cpf7. 8. 0 v on br. 9. idle refers to adsp-2188m state of operation during execution of idle instruction. deasserted pins are driven to either v dd or gnd. 10. i dd measurement taken with all instructions executing from internal memory. 50% of the instructions are multifunction (types 1, 4, 5, 12, 13, 14), 30% are type 2 and type 6, and 20% are idle instructions. 11. v in = 0 v and 3 v. for typical figures for supply currents, refer to power dissipation section. 12. see chapter 9 of the adsp-2100 family users manual for details 13. applies to lqfp package type. 14. output pin capacitance is the capacitive load for any three-stated output pin. i 2 = + , three-state leakage current 7 @ v ' ' ( ; 7 = max, v , 1 = 3.6v 8 10 m a i 2 = / , three-state leakage current 7 @ v ddext = max, v in = 0 v 8 10 m a i ' ' , supply current (idle) 9 @ v ' ' , 1 7 = 2.5, t & . = 15 ns tbd ma i ' ' , supply current (idle) 9 @ v ' ' , 1 7 = 2.5, t & . = 13.3 ns tbd ma i ' ' , supply current (dynamic) 10 @ v ' ' , 1 7 = 2.5, t & . = 15 ns 11 , t $ 0 % =+25 c tbd ma i ' ' , supply current (dynamic) 10 @ v ' ' , 1 7 = 2.5, t & . = 13.3 ns 11 , t $ 0 % =+25 c tbd ma i ' ' , supply current (powerdown) 12 lowest power mode tbd m a c , , input pin capacitance 3, 6, 13 @ v , 1 = 2.5 v, f , 1 = 1.0 mhz, t $ 0 % = +25 c 8 pf c 2 , output pin capacitance 6,7,12,14 @ v , 1 = 2.5 v, f , 1 = 1.0 mhz, t $ 0 % =+25 c 8 pf electrical characteristics (continued) parameter test conditions k/b grades unit min ty p max
april 1999 adsp-2188m preliminary data sheet for current information contact analog devices at (781) 461-3881 this information applies to a product under development. its characteristics and specifications are subject to change with- out notice. analog devices assumes no obligation regarding future manufacturing unless otherwise agreed to in writing. 30 rev. pra esd sensitivity 1. stresses above those listed under absolute maximum ratings may cause permanent damage to the device. these are stress ratings only, and functional operation of the device at these or any other conditions above those indicated in the operational sections of this specification is not implied. exposure to absolute maximum rating conditions for extended periods may affect device reliability . 2. applies to bidirectional pins (d0Cd23, rfs0, rfs1, sclk0, sclk1, tfs0, tfs1, a1Ca13, pf0Cpf7) and input only pins (clkin, reset , br , dr0, dr1, pwd ). 3. applies to output pins ( bg , pms , dms , bms , ioms , cms , rd , wr , pwdack, a0, dt0, dt1, clkout, fl2-0, bgh). absolute maximum ratings 1 parameter value min max internal supply voltage (v ddint ) C0.3 v +3.0 v external supply voltage (v ddext ) C0.3 v +4.6 v input voltage 2 C0.5 v +4.6 v output voltage swing 3 C0.5 v v ddext + 0.5 v operating temperature range (ambient) C40 c +85 c storage temperature range C65 c +150 c lead temperature (5 sec) lqfp +280 c caution: esd (electrostatic discharge) sensitive device. elec- trostatic charges as high as 4000v readily accumulate on the human body and test equipment and can discharge without detection. although the adsp-2188m features proprietary esd protection circuitry, permanent damage may occur on devices subjected to high energy electrostatic discharges. therefore, proper esd precau- tions are recommended to avoid performance degradation or loss of functionality.
this information applies to a product under development. its characteristics and specifications are subject to change with- out notice. analog devices assumes no obligation regarding future manufacturing unless otherwise agreed to in writing. adsp-2188m preliminary data sheet april 1999 for current information contact analog devices at (781) 461-3881 31 rev. pra adsp-2188m timing parameters general notes use the exact timing information given. do not attempt to derive parameters from the addition or subtraction of others. while addition or subtraction would yield meaningful results for an individual device, the values given in this data sheet reflect statistical variations and worst cases. consequently, you cannot meaningfully add up parameters to derive longer times. timing notes switching characteristics specify how the processor changes its signals. you have no control over this timingcircuitry external to the processor must be designed for compatibility with these signal characteristics. switching characteristics tell you what the processor will do in a given circumstance. you can also use switching characteristics to ensure that any timing requirement of a device connected to the processor (such as memory) is satisfied. timing requirements apply to signals that are controlled by circuitry external to the processor, such as the data input for a read operation. timing requirements guarantee that the processor operates correctly with other devices. memory timing specifications the table below shows common memory device specifications and the corresponding adsp-2188m timing parameters, for your convenience. frequency dependency for timing specifications t ck is defined as 0.5t cki . the adsp-2188m uses an input clock with a frequency equal to half the instruction rate: a 37.50 mhz input clock (which is equivalent to 26.7 ns) yields a 13.3 ns processor cycle (equivalent to 75 mhz). t ck values within the range of 0.5t cki period should be substituted for all relevant timing parameters to obtain the specification value. 1. note: xms = pms , dms , bms , cms , or ioms memory device specification parameter timing parameter definition 1 address setup to write start address setup to write end address hold time data setup time data hold time oe to data valid address access time t $ 6 : t $ : t : 5 $ t ' : t ' + t 5 ' ' t $ $ a0-a13, xms setup before wr low a0-a13, xms setup before wr deasserted a0-a13, xms hold before wr low data setup before wr high data hold after wr high rd low to data valid a0-a13, xms to data valid
april 1999 adsp-2188m preliminary data sheet for current information contact analog devices at (781) 461-3881 this information applies to a product under development. its characteristics and specifications are subject to change with- out notice. analog devices assumes no obligation regarding future manufacturing unless otherwise agreed to in writing. 32 rev. pra example: t & . + = 0.5t & . C 7 ns = 0.5 (15 ns) C 7 ns = 0.5 ns power dissipation to determine total power dissipation in a specific application, the following equation should be applied for each output: c x v dd 2 x f c = load capacitance, f = output switching frequency. example: in an application where external data memory is used and no other outputs are active, power dissipation is calculated as follows: assumptions: ? external data memory is accessed every cycle with 50% of the address pins switching. ? external data memory writes occur every other cycle with 50% of the data pins switching. ? each address and data pin has a 10 pf total load at the pin. ? the application operates at v ddext = 3.3 v and t ck = 15 ns. total power dissipation = pint + (c x v ddext 2 x f) pint = internal power dissipation from power vs. frequency graph (figure 15). (c x v ddext 2 x f) is calculated for each output: total power dissipation for this example is pint + 50.7 mw. 1. where the ambient temperature rating (t amb ) is: t amb = t case C (pd x q ca ) t case = case temperature in c pd = power dissipation in w environmental conditions 1 rating description symbol value thermal resistance (case-to-ambient) q ca 48 c/w thermal resistance (junction-to-ambient) q ja 50 c/w thermal resistance (junction-to-case) q jc 2 c/w parameters # of pins xc x v ddext 2 x f pd address, dms 8 10 pf 3.3 2 v 33.3 mhz 29.0 mw data output, wr 9 10 pf 3.3 2 v 16.67 mhz 16.3 mw rd 1 10 pf 3.3 2 v 16.67 mhz 1.8 mw clkout 1 10 pf 3.3 2 v 33.3 mhz 3.6 mw 50.7 mw
this information applies to a product under development. its characteristics and specifications are subject to change with- out notice. analog devices assumes no obligation regarding future manufacturing unless otherwise agreed to in writing. adsp-2188m preliminary data sheet april 1999 for current information contact analog devices at (781) 461-3881 33 rev. pra output drive currents figure 14 shows typical i-v characteristics for the output drivers on the adsp-2188m. the curves represent the current drive capability of the output drivers as a function of output voltage. figure 14 typical output driver characteristics 6 2 8 5 & ( 9 2 / 7 $ * ( e 9 ? ? ? ? ? ? e ? e ? e e ? ? ? ? 6 2 8 5 & ( & 8 5 5 ( 1 7 e p $ 7 % '
april 1999 adsp-2188m preliminary data sheet for current information contact analog devices at (781) 461-3881 this information applies to a product under development. its characteristics and specifications are subject to change with- out notice. analog devices assumes no obligation regarding future manufacturing unless otherwise agreed to in writing. 34 rev. pra figure 15 power vs. frequency capacitive loading figure 16 and figure 17 show the capacitive loading characteristics of the adsp-2188m. figure 16 typical output rise time vs. load capacitance, cl ? w & . e 0 + ] 3 2 : ( 5 ? 3 , 1 7 ? e p : ? ? ? ? ? ? ? ? ? ? 0 3 2 : ( 5 ? , 1 7 ( 5 1 $ / ? ? ? i & . e 0 + ] ? ? ? ? ? ? ? ? ? ? ? ? 3 2 : ( 5 ? , ' / ( ? ? ? 3 2 : ( 5 ? 3 , ' / ( ? e p : ? i & . e 0 + ] ? ? ? ? ? ? ? ? ? ? ? 3 2 : ( 5 ? , ' / ( q 0 2 ' ( 6 , ' / ( 3 2 : ( 5 ? 3 , ' / ( q ? e p : ? ? ? ? ? ? ? ? ? ? 9 $ / , ' ) 2 5 $ / / 7 ( 0 3 ( 5 $ 7 8 5 ( * 5 $ ' ( 6 ? 3 2 : ( 5 5 ( ) / ( & 7 6 ' ( 9 , & ( 2 3 ( 5 $ 7 , 1 * : , 7 + 1 2 2 8 7 3 8 7 / 2 $ ' 6 ? ? , ' / ( 5 ( ) ( 5 6 7 2 $ ' 6 3 e ? ? ? 0 6 7 $ 7 ( 2 ) 2 3 ( 5 $ 7 , 2 1 ' 8 5 , 1 * ( ; ( & 8 7 , 2 1 2 ) , ' / ( , 1 6 7 5 8 & 7 , 2 1 ? ' ( $ 6 6 ( 5 7 ( ' 3 , 1 6 $ 5 ( ' 5 , 9 ( 1 7 2 ( , 7 + ( 5 9 ' ' 2 5 * 1 ' ? 7 < 3 , & $ / 3 2 : ( 5 ' , 6 6 , 3 $ 7 , 2 1 $ 7 ? ? 9 9 ' ' , 1 7 $ 1 ' ? o & ( ; & ( 3 7 : + ( 5 ( 6 3 ( & , ) , ( ' ? , ' ' 0 ( $ 6 8 5 ( 0 ( 1 7 7 $ . ( 1 : , 7 + $ / / , 1 6 7 5 8 & 7 , 2 1 6 ( ; ( & 8 7 , 1 * ) 5 2 0 , 1 7 ( 5 1 $ / 0 ( 0 2 5 < ? ? 2 ) 7 + ( , 1 6 7 5 8 & 7 , 2 1 6 $ 5 ( 0 8 / 7 , ) 8 1 & 7 , 2 1 ? 7 < 3 ( 6 ? ? ? ? ? ? ? ? ? $ 5 ( 7 < 3 ( ? $ 1 ' 7 < 3 ( ? ? $ 1 ' ? ? $ 5 ( , ' / ( , 1 6 7 5 8 & 7 , 2 1 6 ? ? ? ? ? ? ? 7 % ' 7 % ' 7 % ' & / e s ) 5 , 6 ( 7 , 0 ( ? ? 9 e ? ? 9 ? e q v ? ? ? ? t = +8 5c v dd = 0 v to 2. 0v 7 % '
this information applies to a product under development. its characteristics and specifications are subject to change with- out notice. analog devices assumes no obligation regarding future manufacturing unless otherwise agreed to in writing. adsp-2188m preliminary data sheet april 1999 for current information contact analog devices at (781) 461-3881 35 rev. pra (at maximum ambient operating temperature) figure 17 typical output valid delay or hold vs. load capacitance, cl (at maximum ambient operating temperature) & / s ) 9 $ / , ' 2 8 7 3 8 7 ' ( / $ < 2 5 + 2 / ' q v ? ? ? ? ? ? 1 2 0 , 1 $ / ? ? ? ? 7 % '
april 1999 adsp-2188m preliminary data sheet for current information contact analog devices at (781) 461-3881 this information applies to a product under development. its characteristics and specifications are subject to change with- out notice. analog devices assumes no obligation regarding future manufacturing unless otherwise agreed to in writing. 36 rev. pra test conditions output disable time output pins are considered to be disabled when they have stopped driving and started a transition from the measured output high or low voltage to a high impedance state. the output disable time (t dis ) is the difference of t measured and t decay , as shown in the output enable/disable diagram. the time is the interval from when a reference signal reaches a high or low voltage level to when the output voltages have changed by 0.5 v from the measured output high or low voltage. the decay time, t decay , is dependent on the capacitive load, cl, and the current load, il, on the output pin. it can be approximated by the following equation: from which t dis = t measured - t decay is calculated. if multiple pins (such as the data bus) are disabled, the measurement value is that of the last pin to stop driving. figure 18 voltage reference levels for ac measurements (except output enable/disable) t decay c l 0.5 v i l e e e e e e e e e e e e e e e e e e e e e e e e e = 1.5v 2.0v in p u t ou t pu t 1.5v 0.8v
this information applies to a product under development. its characteristics and specifications are subject to change with- out notice. analog devices assumes no obligation regarding future manufacturing unless otherwise agreed to in writing. adsp-2188m preliminary data sheet april 1999 for current information contact analog devices at (781) 461-3881 37 rev. pra output enable time output pins are considered to be enabled when that have made a transition from a high-impedance state to when they start driving. the output enable time (t ena ) is the interval from when a reference signal reaches a high or low voltage level to when the output has reached a specified high or low trip point, as shown in the output enable/disable diagram. if multiple pins (such as the data bus) are enabled, the measurement value is that of the first pin to start driving figure 19 output enable/disable figure 20 equivalent device loading for ac measurements (including all fixtures) 2.0v 1.0v t ( 1 $ re fe re nc e signal ou t pu t t ' ( & $ < v 2 + (measure d) ou tp ut s t op s dr i vi n g outp ut star ts dr i vi n g t ' , 6 t 0 ( $ 6 8 5 ( ' v 2 / (measure d) v oh (m ea sured) e 0.5v v ol (m ea sured) + 0.5v high -imp edan ce stat e. t est con diti ons cau se this volta ge le vel t o be appro ximat ely 1 .5v. v 2 + (measure d) v 2 / (measure d) to ou t pu t p i n 50pf +1.5v i 2 + i 2 /
april 1999 adsp-2188m preliminary data sheet for current information contact analog devices at (781) 461-3881 this information applies to a product under development. its characteristics and specifications are subject to change with- out notice. analog devices assumes no obligation regarding future manufacturing unless otherwise agreed to in writing. 38 rev. pra timing parameters adsp-2188m clock signals and reset 1applies after power-up sequence is complete. internal phase lock loop requires no more than 2000 clkin cycles assuming stable clkin (not including crystal oscillator start-up time) figure 21 clock signals parameter min max unit clock signals and reset timing requirements: t cki clkin period t ckil clkin width low t ckih clkin width high switching characteristics: t ckl clkout width low t ckh clkout width high t ckoh clkin high to clkout high control signals timing requirements: t rsp reset width low t ms mode setup before reset high t mh mode hold after reset high 26.6 100 13 13 0.5t ck - 2 0.5t ck - 2 0 13 5t ck 1 2 5 ns ns ns ns ns ns ns ns ns w 0 + 3 ) ? ? ? 5 ( 6 ( 7 w 0 6 3 ) l v 0 2 ' ( ' ? 3 ) ? l v 0 r g h & ? 3 ) l v 0 r g h % ? 3 ) l v 0 r g h $ clk in clkou t t ckil t ck oh t ckh t ckl t cki t ckih
this information applies to a product under development. its characteristics and specifications are subject to change with- out notice. analog devices assumes no obligation regarding future manufacturing unless otherwise agreed to in writing. adsp-2188m preliminary data sheet april 1999 for current information contact analog devices at (781) 461-3881 39 rev. pra timing parameters adsp-2188m interrupts and flags notes 1 if irqx and fi inputs meet t ifs and t ifh setup/hold requirements, they will be recognized during the current clock cycle; otherwise the signals will be recognized on the following cycle. (refer to interrupt controller operation in the program control chapter of t he adsp- 2100 family users manual for further information on interrupt servicing.) 2 edge-sensitive interrupts require pulse widths greater than 10ns; level-sensitive interrupts must be held low until serviced. 3 irqx = irq0 , irq1 , irq2 , irql0 , irql1 , irqle . 4 pfx = pf0, pf1, pf2, pf3, pf4, pf5, pf6, pf7. 5flag outputs = pfx, fl0, fl1, fl2, flag_out. figure 22 interrupts and flags 3 d u d p h w h u 0 l q 0 d [ 8 q l w interrupts and flag timing requirements: t ifs irqx , fi, or pfx setup before clkout low 1, 2, 3, 4 t ifh irqx , fi, or pfx hold after clkout high 1, 2, 3, 4 switching characteristics: t foh flag output hold after clkout low 5 t fod flag output delay from clkout low 5 0.25t ck + 10 0.25t ck 0.5t ck - 5 0.5t ck + 4 ns ns ns ns w ) 2 ' w ) 2 + w , ) + w , ) 6 & / . 2 8 7 ) / $ * 2 8 7 3 8 7 6 , 5 4 [ ) , 3 ) [
april 1999 adsp-2188m preliminary data sheet for current information contact analog devices at (781) 461-3881 this information applies to a product under development. its characteristics and specifications are subject to change with- out notice. analog devices assumes no obligation regarding future manufacturing unless otherwise agreed to in writing. 40 rev. pra timing parameters adsp-2188m bus request-bus grant notes xms = pms , dms , cms , ioms , bms 1 br is an asynchronous signal. if br meets the setup/hold requirements, it will be recognized during the current clock cycle; othe r wise the signal will be recognized on the following cycle. refer to the adsp-2100 family users manual for br / bg cycle relationships. 2 bgh is asserted when the bus is granted and the processor or bdma requires control of the bus to continue. figure 23 bus requestCbus grant 3 d u d p h w h u 0 l q 0 d [ 8 q l w bus request/grant timing requirements: t bh br hold after clkout high 1 t bs br setup before clkout low 1 switching characteristics: t sd clkout high to xms , rd , wr disable t sdb xms , rd , wr disable to bg low t se bg high to xms , rd , wr enable t sec xms , rd , wr enable to clkout high t sdbh xms , rd , wr disable to bgh low 2 t seh bgh high to xms , rd , wr enable 2 0.25t ck + 2 0.25t ck + 10 0.25t ck + 8 0 0 0.25t ck C 3 0 0 ns ns ns ns ns ns ns ns clkou t t s d t s db t s e t s e c t sd bh t s e h t b s % 5 t bh clkou t % * % * + 3 0 6 ? ' 0 6 % 0 6 ? 5 ' : 5
this information applies to a product under development. its characteristics and specifications are subject to change with- out notice. analog devices assumes no obligation regarding future manufacturing unless otherwise agreed to in writing. adsp-2188m preliminary data sheet april 1999 for current information contact analog devices at (781) 461-3881 41 rev. pra timing parameters adsp-2188m memory read w = wait states x t ck xms = pms , dms , cms , ioms , bms figure 24 memory read 3 d u d p h w h u 0 l q 0 d [ 8 q l w memory read timing requirements: t rdd rd low to data valid t aa a0-a13, xms to data valid t rdh data hold from rd high switching characteristics: t rp rd pulse width t crd clkout high to rd low t asr a0-a13, xms setup before rd low t rda a0-a13, xms hold after rd deasserted t rwr rd high to rd or wr low 0.5t ck C 5 + w 0.75t ck - 6 + w 0 0.5t ck - 3 + w 0.25t ck - 2 0.25t ck + 4 0.25t ck - 3 0.25t ck C 3 0.5t ck - 3 ns ns ns ns ns ns ns ns & / . 2 8 7 $ e $ ' t rda t rw r t rp t asr t crd t rdd t aa t rdh 5 ' : 5 ' 0 6 ? 3 0 6 ? % 0 6 ? , 2 0 6 ? & 0 6
april 1999 adsp-2188m preliminary data sheet for current information contact analog devices at (781) 461-3881 this information applies to a product under development. its characteristics and specifications are subject to change with- out notice. analog devices assumes no obligation regarding future manufacturing unless otherwise agreed to in writing. 42 rev. pra timing parameters adsp-2188m memory write w = wait states x t ck xms = pms , dms , cms , ioms , bms figure 25 memory write 3 d u d p h w h u 0 l q 0 d [ 8 q l w memory write switching characteristics: t dw data setup before wr high t dh data hold after wr high t wp wr pulse width t wde wr low to data enabled t asw a0-a13, xms setup before wr low t ddr data disable before wr or rd low t cwr clkout high to wr low t aw a0-a13, xms , setup before wr deasserted t wra a0-a13, xms hold after wr deasserted t wwr wr high to rd or wr low 0.5t ck C 4+ w 0.25t ck C 1 0.5t ck C 3 + w 0 0.25t ck C 3 0.25t ck C 3 0.25t ck C 2 0.25 t ck + 4 0.75t ck C 5 + w 0.25t ck C 1 0.5t ck C 3 ns ns ns ns ns ns ns ns ns ns clkou t a0 -a13 d t wp t aw t cw r t dh t w de t dw t a sw t w wr t wra t d dr ' 0 6 ? 3 0 6 ? % 0 6 ? & 0 6 ? , 2 0 6 5 ' : 5
this information applies to a product under development. its characteristics and specifications are subject to change with- out notice. analog devices assumes no obligation regarding future manufacturing unless otherwise agreed to in writing. adsp-2188m preliminary data sheet april 1999 for current information contact analog devices at (781) 461-3881 43 rev. pra timing parameters adsp-2188m serial ports figure 26 serial ports 3 d u d p h w h u 0 l q 0 d [ 8 q l w serial ports timing requirements: t sck sclk period t scs dr/tfs/rfs setup before sclk low t sch dr/tfs/rfs hold after sclk low t scp sclkin width switching characteristics: t cc clkout high to sclkout t scde sclk high to dt enable t scdv sclk high to dt valid t rh tfs/rfsout hold after sclk high t rd tfs/rfsout delay from sclk high t scdh dt hold after sclk high t tde tfs (alt) to dt enable t tdv tfs (alt) to dt valid t scdd sclk high to dt disable t rdv rfs (multichannel, frame delay zero) to dt valid 26.67 4 7 12 0.25t ck 0.25t ck + 6 0 12 0 12 0 0 12 12 12 ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns clkou t sclk tfs 2 8 7 rf s o ut dt alt er nat e fra me m od e t cc t cc t s c s t s ch t rh t s cd e t sc dh t sc dd t t de t r dv mu lt i ch an n el mo d e , fr a me de l a y 0 (m fd = 0 ) ' 5 7 ) 6 , 1 5 ) 6 , 1 5 ) 6 2 8 7 7 ) 6 2 8 7 t t dv t s cd v t rd t sc p t s ck t sc p tfs in rf s in alt er nat e fra me m od e t r dv mu lt i ch an n el mo d e , fr a me de l a y 0 (m fd = 0 ) t t de t t dv
april 1999 adsp-2188m preliminary data sheet for current information contact analog devices at (781) 461-3881 this information applies to a product under development. its characteristics and specifications are subject to change with- out notice. analog devices assumes no obligation regarding future manufacturing unless otherwise agreed to in writing. 44 rev. pra timing parameters adsp-2188m idma address latch notes 1 start of address latch = is low and ial high. 2 start of write or read = is low and iwr low or ird low. 3 end of address latch = is high or ial low. figure 27 idma address latch 3 d u d p h w h u 0 l q 0 d [ 8 q l w idma address latch timing requirements: t ialp duration of address latch 1, 3 t iasu iad15C0 address setup before address latch end 3 t iah iad15C0 address hold after address latch end 3 t ika iack low before start of address latch 2, 3 t ials start of write or read after address latch end 2, 3 t iald address latch start after address latch end 1, 3 10 5 2 0 3 tbd ns ns ns ns ns ns , $ ' e w , . $ , 5 ' , : 5 2 5 , $ & . , $ / , 6 w , $ / 3 w , $ / ' w , $ / 6 w , $ 6 8 w , $ 6 8 w , $ + w , $ + w , $ / 3
this information applies to a product under development. its characteristics and specifications are subject to change with- out notice. analog devices assumes no obligation regarding future manufacturing unless otherwise agreed to in writing. adsp-2188m preliminary data sheet april 1999 for current information contact analog devices at (781) 461-3881 45 rev. pra timing parameters adsp-2188m idma write, short write cycle notes 1 start of write = is low and iwr low. 2 end of write = is high or iwr high. 3 if write pulse ends before iack low, use specifications t idsu , t idh. 4 if write pulse ends after iack low, use specifications t iksu , t ikh. figure 28 idma write, short write cycle 3 d u d p h w h u 0 l q 0 d [ 8 q l w idma write, short write cycle timing requirements: t ikw iack low before start of write 1 t iwp duration of write 1, 2 t idsu iad15C0 data setup before end of write 2, 3, 4 t idh iad15C0 data hold after end of write 2, 3, 4 switching characteristics: t ikhw start of write to iack high 0 10 3 2 10 ns ns ns ns ns iad 15-0 da ta t , . + : t , . : t , ' 6 8 , $ & . t , : 3 t , ' + , 6 , : 5
april 1999 adsp-2188m preliminary data sheet for current information contact analog devices at (781) 461-3881 this information applies to a product under development. its characteristics and specifications are subject to change with- out notice. analog devices assumes no obligation regarding future manufacturing unless otherwise agreed to in writing. 46 rev. pra timing parameters adsp-2188m idma write, long write cycle notes 1 start of write = is low and iwr low. 2 if write pulse ends before iack low, use specifications t idsu , t idh. 3 if write pulse ends after iack low, use specifications t iksu , t ikh. 4 this is the earliest time for iack low from start of write. for idma write cycle relationships, please refer to the adsp-2100 family users manual . figure 29 idma write, long write cycle 3 d u d p h w h u 0 l q 0 d [ 8 q l w idma write, long write cycle timing requirements: t ikw iack low before start of write 1 t iksu iad15C0 data setup before end of write 2, 3, 4 t ikh iad15C0 data hold after end of write 2, 3, 4 switching characteristics: t iklw start of write to iack low 4 t ikhw start of write to iack high 0 .5t & . + 5 0 1.5t ck 10 ns ns ns ns ns , $ ' e w , . $ , 5 ' , : 5 2 5 , $ & . , $ / , 6 w , $ / 3 w , $ / ' w , $ / 6 w , $ 6 8 w , $ 6 8 w , $ + w , $ + w , $ / 3
this information applies to a product under development. its characteristics and specifications are subject to change with- out notice. analog devices assumes no obligation regarding future manufacturing unless otherwise agreed to in writing. adsp-2188m preliminary data sheet april 1999 for current information contact analog devices at (781) 461-3881 47 rev. pra timing parameters adsp-2188m idma read, long read cycle notes 1 start of read = is low and ird low. 2 end of read = is high or ird high. 3 dm read or first half of pm read. 4 second half of pm read. figure 30 idma read, long read cycle 3 d u d p h w h u 0 l q 0 d [ 8 q l w idma read, long read cycle timing requirements: t ikr iack low before start of read 1 switching characteristics: t ikhr iack high after start of read 1 t ikds iad15C0 data setup before iack low t ikdh iad15C0 data hold after end of read 2 t ikdd iad15C0 data disabled after end of read 2 t irde iad15C0 previous data enabled after start of read t irdv iad15C0 previous data valid after start of read t irdh1 iad15C0 previous data hold after start of read (dm/pm1) 3 t irdh2 iad15C0 previous data hold after start of read (pm2) 4 0 10 0.5t ck - 2 0 10 0 10 2t ck - 5 t ck - 5 ns ns ns ns ns ns ns ns ns t irp t ikr pr e v i o u s da ta read da ta t ikhr t ikd s t ird v t irdh t ikdd t ird e t ikdh iad 15-0 , $ & . , 6 , 5 '
april 1999 adsp-2188m preliminary data sheet for current information contact analog devices at (781) 461-3881 this information applies to a product under development. its characteristics and specifications are subject to change with- out notice. analog devices assumes no obligation regarding future manufacturing unless otherwise agreed to in writing. 48 rev. pra timing parameters adsp-2188m idma read, short read cycle notes 1 start of read = is low and ird low. 2 end of read = is high or ird high. figure 31 idma read, short read cycle 3 d u d p h w h u 0 l q 0 d [ 8 q l w idma read, short read cycle timing requirements: t ikr iack low before start of read 1 t irp duration of read switching characteristics: t ikhr iack high after start of read 1 t ikdh iad15C0 data hold after end of read 2 t ikdd iad15C0 data disabled after end of read 2 t irde iad15C0 previous data enabled after start of read t irdv iad15C0 previous data valid after start of read 0 10 10 0 10 0 10 ns ns ns ns ns ns ns ns t irp t ikr pr e v i o u s da ta t ikhr t ird v t ikdd t ird e t ikdh iad 15-0 , $ & . , 6 , 5 '
this information applies to a product under development. its characteristics and specifications are subject to change with- out notice. analog devices assumes no obligation regarding future manufacturing unless otherwise agreed to in writing. adsp-2188m preliminary data sheet april 1999 for current information contact analog devices at (781) 461-3881 49 rev. pra 100-lead lqfp package pinout e / h d g / 4 ) 3 3 l q r x w 7 r s 9 l h z ? s l q v g r z q ? $ ' 6 3 e ? ? ? 0 $ ? , $ ' $ ? , $ ' $ ? ? , $ ' $ ? ? , $ ' ? $ ? ? , $ ' ? $ ? , $ ' ? $ ? , $ ' $ ? ? , $ ' $ ? , $ ' ? * 1 ' & / . , 1 ; 7 $ / * 1 ' 9 ' ' ( ; 7 & / . 2 8 7 * 1 ' 9 ' ' , 1 7 : 5 5 ' $ ? ? , $ ' ? % 0 6 3 0 6 , 2 0 6 & 0 6 ' 0 6 ' ' ' ' ? * 1 ' ' ' ' ? 9 ' ' ( ; 7 * 1 ' ' ? ? , : 5 ' ? ? , 5 ' ' ? , $ / ' ? , 6 * 1 ' 9 ' ' , 1 7 ' ? , $ & . ' ? ? , $ ' ' ? , $ ' ' ? , $ ' ' ? % * ( % * % 5 ( % 5 ? ? ( , 1 7 ( / , 1 ( / 2 8 7 ( & / . ( ( ( 0 6 5 ( 6 ( 7 ( 5 ( 6 ( 7 6 & / . * 1 ' ' 5 5 ) 6 7 ) 6 ' 7 9 ' ' ( ; 7 6 & / . ' 5 5 ) 6 7 ) 6 ' 7 , 5 4 ? ? 3 ) ? , 5 4 / ? 3 ) ? * 1 ' , 5 4 / ? 3 ) , 5 4 ( ? 3 )
this information applies to a product under development. its characteristics and specifications are subject to change with- out notice. analog devices assumes no obligation regarding future manufacturing unless otherwise agreed to in writing. adsp-2188m preliminary data sheet april 1999 for current information contact analog devices at (781) 461-3881 50 rev. pra p r e l i m i n a r y t e c h n i c a l d a t a the adsp-2188m package pinout appears in table 7. pin names in bold text replace the plain text named functions when mode c = 1. a + sign separates two functions when either function can be active for either major i/o mode. signals enclosed in brackets [ ] are state bits latched from the value of the pin at the deassertion of reset . table 7 adsp-2188m package pinout lqfp number pin name lqfp number pin name lqfp number pin name lqfp number pin name 1 a4 / iad3 26 irqe + pf4 51 ebr 76 d16 2 a5 / iad4 27 irql0 + pf5 52 br 77 d17 3 gnd 28 gnd 53 ebg 78 d18 4 a6 / iad5 29 irql1 + pf6 54 bg 79 d19 5 a7 / iad6 30 irq2 + pf7 55 d0 / iad13 80 gnd 6 a8 / iad7 31 dt0 56 d1 / iad14 81 d20 7 a9 / iad8 32 tfs0 57 d2 / iad15 82 d21 8 a10 / iad9 33 rfs0 58 d3 / iack 83 d22 9 a11 / iad10 34 dr0 59 vddint 84 d23 10 a12 / iad11 35 sclk0 60 gnd 85 fl2 11 a13 / iad12 36 vddext 61 d4 / is 86 fl1 12 gnd 37 dt1 62 d5 / ial 87 fl0 13 clkin 38 tfs1 63 d6 / ird 88 pf3 [mode d] 14 xtal 39 rfs1 64 d7 / iwr 89 pf2 [mode c] 15 vddext 40 dr1 65 d8 90 vddext 16 clkout 41 gnd 66 gnd 91 pwd 17 gnd 42 sclk1 67 vddext 92 gnd 18 vddint 43 ereset 68 d9 93 pf1 [mode b] 19 wr 44 reset 69 d10 94 pf0 [mode a] 20 rd 45 ems 70 d11 95 bgh 21 bms 46 ee 71 gnd 96 pwdack 22 dms 47 eclk 72 d12 97 a0 23 pms 48 elout 73 d13 98 a1/iad0 24 ioms 49 elin 74 d14 99 a2 / iad1 25 cms 50 eint 75 d15 100 a3 / iad2
this information applies to a product under development. its characteristics and specifications are subject to change with- out notice. analog devices assumes no obligation regarding future manufacturing unless otherwise agreed to in writing. adsp-2188m preliminary data sheet april 1999 for current information contact analog devices at (781) 461-3881 51 rev. pra outline dimensions figure 32 100-lead metric thin plastic quad flatpack (dimensions shown in millimeters and inches) ordering guide printed in usa 1. in 1998, jedec re-evaluated the specifications for the tqfp package designation, assigning it to packages 1.0 mm thick. previou s ly labelled tqfp packages (1.6 mm thick) are now designated as lqfp. part number ambient temperature range instruction rate package description 1 package option adsp-2188m kst-300x 0c to +70c 75 100-lead lqfp st-100 6 ( $ 7 , 1 * 3 / $ 1 ( ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? 0 $ ; ? ? 7 < 3 ? ? ? ? ? ? ? ? ? ? ? ? ? 7 < 3 ? ? ? ? ? ? ? ? ? ? ? e ? ? ? ? ? ? ? 0 $ ; / ( $ ' & 2 3 / $ 1 $ 5 , 7 < 7 2 3 9 , ( : ? 3 , 1 6 ' 2 : 1 ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? 7 < 3 ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? 7 < 3 6 4 ? ? ? ? ? ? ? ? ? ? ? ? ? ? 7 < 3 6 4 ? ? ? ? ? % 6 & ? ? ? ? ? ? ? % 6 & 6 4 / ( $ ' : , ' 7 + / ( $ ' 3 , 7 & + , 1 & + ( 6 ? 0 , / / , 0 ( 7 ( 5 6 ? 7 < 3 1 2 7 ( ? 7 + ( $ & 7 8 $ / 3 2 6 , 7 , 2 1 2 ) ( $ & + / ( $ ' , 6 : , 7 + , 1 ? ? ? ? ? ? ) 5 2 0 , 7 6 , ' ( $ / 3 2 6 , 7 , 2 1 : + ( 1 0 ( $ 6 8 5 ( ' , 1 7 + ( / $ 7 ( 5 $ / ' , 5 ( & 7 , 2 1 ? & ( 1 7 ( 5 ) , * 8 5 ( 6 $ 5 ( 7 < 3 , & $ / 8 1 / ( 6 6 2 7 + ( 5 : , 6 ( 1 2 7 ( '
this information applies to a product under development. its characteristics and specifications are subject to change with- out notice. analog devices assumes no obligation regarding future manufacturing unless otherwise agreed to in writing. adsp-2188m preliminary data sheet april 1999 for current information contact analog devices at (781) 461-3881 52 rev. pra

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