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| E2D0018-39-93 Semiconductor Semiconductor MSM9802/03/05-xxx Voice Synthesis IC with Built-in Mask ROM This version: Sep. 1999 MSM9802/03/05-xxx Previous version: May. 1997 GENERAL DESCRIPTION The MSM9802/03/05 is a PCM voice synthesis IC with built-in mask ROM. This IC has two user selectable playback algorithms, OKI Non-linear PCM and straight PCM. It also contains a current mode 10-bit D/A converter and a low-pass filter. External control has been made easy by the built-in edit ROM that can form sentences by linking phrases. By using Oki's Sound Analysis and Editing Tool, ROM data such as Phrase Control Table can be easily set, created, edited, and evaluated. With the stand-alone mode/microcontroller interface mode switching pin, the MSM9802/03/ 05 can support various applications. FEATURES Device MSM9802 MSM9803 MSM9805 ROM size* 512 Kbits 1 Mbit 2 Mbits Speech period (sec) fSAM=4.0 kHz 16.0 32.4 65.1 fSAM=6.4 kHz 10.0 20.2 40.7 fSAM=8.0 kHz 8.0 16.2 32.5 fSAM=16.0 kHz 4.0 8.1 16.2 * Actual voice ROM area is smaller by 11 Kbits. * ROM custom * 8-bit OKI nonlinear PCM method/8-bit straight PCM method * Built-in edit ROM * Random playback function * Sampling frequency : 4.0 kHz/5.3 kHz/6.4 kHz/8.0 kHz/10.6 kHz/12.8 kHz/ 16.0 kHz Note: If RC oscillation is selected, 10.6 kHz, 12.8 kHz, and 16.0 kHz cannot be selected. * Maximum number of phrases : 63 (Microcontroller interface mode) 56 (Stand-alone mode) * Built-in current mode 10-bit D/A converter * Built-in low-pass filter * Standby function * RC oscillation (256 kHz)/ceramic oscillation (4.096 MHz) selectable * Package options: 18-pin plastic DIP (DIP18-P-300-2.54) (Product name: MSM9802-xxxRS/MSM9803-xxxRS/ MSM9805-xxxRS) 24-pin plastic SOP (SOP24-P-430-1.27-K) (Product name: MSM9802-xxxGS-K/MSM9803-xxxGS-K/ MSM9805-xxxGS-K) 30-pin plastic SSOP (SSOP30-P-56-0.65-K) (Product name: MSM9802-xxxGS-AK/MSM9803-xxxGSAK/MSM9805-xxxGS-AK) xxx indicates code number. Chip Note: This data sheet explains a stand-alone mode and a microcontroller interface mode, separately. 1/51 Semiconductor MSM9802/03/05-xxx CONTENTS (1) Stand-alone Mode BLOCK DIAGRAM ............................................................................................................................. 3 PIN CONFIGURATION ..................................................................................................................... 4 PIN DESCRIPTIONS ........................................................................................................................... 6 ABSOLUTE MAXIMUM RATINGS ................................................................................................. 8 RECOMMENDED OPERATING CONDITIONS ........................................................................... 8 ELECTRICAL CHARACTERISTICS ................................................................................................ 9 TIMING DIAGRAMS ....................................................................................................................... 12 FUNCTIONAL DESCRIPTION ....................................................................................................... 14 1. Playback Code Specification ............................................................................................. 14 2. Pull-up/Pull-down Resistor .............................................................................................. 14 3. Stand-alone Mode ............................................................................................................... 14 APPLICATION CIRCUITS .............................................................................................................. 19 (2) Microcontroller Interface Mode BLOCK DIAGRAM ........................................................................................................................... PIN CONFIGURATION ................................................................................................................... PIN DESCRIPTIONS ......................................................................................................................... ABSOLUTE MAXIMUM RATINGS ............................................................................................... RECOMMENDED OPERATING CONDITIONS ......................................................................... ELECTRICAL CHARACTERISTICS .............................................................................................. TIMING DIAGRAMS ....................................................................................................................... FUNCTIONAL DESCRIPTION ....................................................................................................... 1. Playback Code Specification ............................................................................................. 2. Address Data ....................................................................................................................... 3. Stop Code ............................................................................................................................. 4. Generating Pseudo - BUSY Signal through NAR pin.................................................... APPLICATION CIRCUIT................................................................................................................. (3) Common 1. Sampling Frequency ........................................................................................................... 2. Recording/Playback Time ................................................................................................. 3. Playback Method ................................................................................................................ 4. Phrase Control Table .......................................................................................................... 5. RC Oscillation ...................................................................................................................... 6. Ceramic Oscillation ............................................................................................................ 7. Low-pass Filter .................................................................................................................... 8. Standby Transition .............................................................................................................. 9. Voice Output Unit Equivalent Circuit (AOUT, VREF Pins) .......................................... D/A CONVERTER CURRENT CHARACTERISTICS ................................................................ PAD CONFIGURATION ................................................................................................................. 21 22 24 25 25 26 29 31 31 31 32 33 34 35 35 36 37 39 40 42 43 44 45 46 2/51 Semiconductor BLOCK DIAGRAM (1) STAND-ALONE MODE (CPU/STD: "L" level) A2 A1 A0 SW2 SW1 SW0 Address & Switching Controller 6 16-Bit (MSM9802) 17-Bit (MSM9803) 18-Bit (MSM9805) Multiplexer 512-Kbit (MSM9802) 1-Mbit (MSM9803) 2-Mbit (MSM9805) ROM (Including 11 Kbits of Edit ROM & Address ROM) 8 CPU/STD RND Random Circuit 16-Bit (MSM9802) 17-Bit (MSM9803) 18-Bit (MSM9805) Address Counter DATA Controller PCM Synthesizer BUSY I/O Interface 10 OSC1 OSC2 OSC3/TEST OSC XT/RC Timing Controller 10-Bit DAC & LPF MSM9802/03/05-xxx 3/51 XT/CR RESET VDD GND VREF AOUT Semiconductor MSM9802/03/05-xxx PIN CONFIGURATION (TOP VIEW) A0 A1 A2 RESET XT/CR BUSY GND VREF AOUT 1 2 3 4 5 6 7 8 9 18 SW2 17 SW1 16 SW0 15 RND 14 CPU/STD 13 OSC3/TEST 12 OSC2 11 OSC1 10 VDD 18-Pin Plastic DIP Note: Applicable to MSM9802-xxxRS, MSM9803-xxxRS, and MSM9805-xxxRS. VDD 1 2 3 4 5 6 7 8 9 OSC1 OSC2 NC 21 NC OSC3/TEST NC 19 NC CPU/STD RND NC 16 NC SW0 10 SW1 11 SW2 12 15 A2 14 A1 13 A0 24 AOUT 23 VREF 22 GND 20 BUSY 18 XT/CR 17 RESET NC: No connection 24-Pin Plastic SOP Note: Applicable to MSM9802-xxxGS-K, MSM9803-xxxGS-K, and MSM9805-xxxGS-K. 4/51 Semiconductor MSM9802/03/05-xxx VDD OSC1 OSC2 NC NC OSC3/TEST NC CPU/STD NC 1 2 3 4 5 6 7 8 9 30 AOUT 29 VREF 28 GND 27 NC 26 NC 25 BUSY 24 NC 23 XT/CR 22 NC 21 RESET 20 NC 19 NC 18 A2 17 A1 16 A0 RND 10 NC 11 NC 12 SW0 13 SW1 14 SW2 15 NC: No connection 30-Pin Plastic SSOP Note: Applicable to MSM9802-xxxGS-AK, MSM9803-xxxGS-AK, and MSM9805-xxxGS-AK. 5/51 Semiconductor MSM9802/03/05-xxx PIN DESCRIPTIONS Pin DIP SOP SSOP Symbol Type Description The IC enters the standby state if this pin is set to "L" level. At this time, oscillation stops and AOUT drives a current of 0mA and becomes GND 4 17 21 RESET I level, then the IC returns to the initial state. Apply a "L" pulse upon power-on. This pin has an internal pull-up resistor. 6 5 14 20 18 7 25 23 8 BUSY XT/CR CPU/STD O I I Outputs "L" level while voice is being played back. At power-on, this pin is at "H" level. XT/RC switching pin. Set to "H" level if ceramic oscillation is used. Set to "L" level if RC oscillation is used. Microcontroller interface/stand-alone mode switching pin. Set to "L" level if the MSM9802/03/05 is used in stand-alone mode. Volume setting pin. If this pin is set to GND level, the maximum 8 23 29 VREF I current is forced in. If this pin is set to VDD level, the minimum current is forced in. A pull-down resistor of approx. 10 W is internally connected to this pin during operation. Voice output pin. 9 7 10 24 22 1 30 28 1 AOUT GND VDD O -- -- The voice signals are output as current changes. In standby state, this pin drives a current of 0 mA and becomes GND level. Ground pin. Power supply pin. Insert a bypass capacitor of 0.1 mF or more between VDD and GND pins. Ceramic oscillator connection pin when ceramic oscillation is selected. 11 2 2 OSC1 I RC connection pin when RC oscillation is selected. Input from this pin if external clock is used. Ceramic oscillator connection pin when ceramic oscillation is selected. 12 3 3 OSC2 O RC connection pin when RC oscillation is selected. Leave this pin open if external clock is used. Outputs "L" level in standby state. Leave this pin open when ceramic oscillation is used. 13 5 6 OSC3/TEST O RC connection pin when RC oscillation is selected. Outputs "H" level in standby state when RC oscillation is selected. Random playback starts if RND pin is set to "L" level. 15 8 10 RND I Fetches addresses from random address generation circuit in the IC at fall of RND. Set to "H" level when the random playback function is not used. This pin has internal pull-up resistor. 6/51 Semiconductor MSM9802/03/05-xxx Pin DIP SOP SSOP Symbol Type Description Phrase input pins corresponding to playback sound. 16-18 10-12 13-15 SW0 - SW2 I If input changes, SW0 to SW2 pins fetch addresses after 16 ms and start voice synthesis. Each of these pins has internal pull-down resistor. Phrase input pins corresponding to playback sound. 1-3 13-15 16-18 A0 - A2 I Input logic of A0 pin becomes invalid if the random playback function is used. 7/51 Semiconductor MSM9802/03/05-xxx ABSOLUTE MAXIMUM RATINGS (GND=0 V) Parameter Power Supply Voltage Input Voltage Storage Temperature Symbol VDD VIN TSTG Condition Ta=25C -- Rating -0.3 to +7.0 -0.3 to VDD+0.3 -55 to +150 Unit V V C RECOMMENDED OPERATING CONDITIONS (GND=0 V) Parameter Power Supply Voltage Operating Temperature Master Clock Frequency 1 Master Clock Frequency 2 Symbol VDD Top fOSC1 fOSC2 Condition -- -- When crystal is selected When RC is selected (*1) Min. 3.5 200 Range 2.0 to 5.5 -40 to +85 Typ. 4.096 256 Max. 4.5 300 Unit V C MHz kHz *1 The accuracy of the oscillation frequency when RC oscillation is selected depends largely on the accuracy of the external R and C. 8/51 Semiconductor MSM9802/03/05-xxx ELECTRICAL CHARACTERISTICS DC Characteristics (VDD=5.0 V, GND=0 V, Ta=-40 to +85C, unless otherwise specified) Parameter "H" Input Voltage "L" Input Voltage "H" Output Voltage "L" Output Voltage "H" Input Current 1 "H" Input Current 2 "H" Input Current 3 "L" Input Current 1 "L" Input Current 2 *2 *1 Symbol VIH VIL VOH VOL IIH1 IIH2 IIH3 IIL1 IIL2 IDD1 Condition -- -- IOH=-1 mA IOL=2 mA VIH=VDD Internal pull-down resistor Applies to OSC1 pin only. VIH=VDD VIL=GND Internal pull-up resistor VREF=VDD, AOUT bias voltage=0V At maximum output current Dynamic Supply Current 2 *4 IDD2 VREF=GND, AOUT bias voltage=0V Standby Current IDS Ta=-40 to +70C Ta=70 to 85C At maximum output current, AOUT Output Current VREF Pin Pull-down Resistance IAOUT RVREF VREF=GND, AOUT bias voltage=0V -- 7 10 13 kW 6 9.5 15 mA -- -- -- -- 10 50 A A -- -- 16 mA Min. 4.2 -- 4.6 -- -- 30 -- -10 -200 -- Typ. -- -- -- -- -- 90 -- -- -90 0.4 Max. -- 0.8 -- 0.4 10 200 15 -- -30 1 Unit V V V V A A A A A mA Dynamic Supply Current 1 *3 *1 *2 *3 *4 Applicable to SW0-SW2 Applicable to RESET, RND Dynamic supply current (excluding DAC output current) Dynamic supply current at maximum output current 9/51 Semiconductor MSM9802/03/05-xxx DC Characteristics (VDD=3.1 V, GND=0 V, Ta=-40 to +85C, unless otherwise specified) Parameter "H" Input Voltage "L" Input Voltage "H" Output Voltage "L" Output Voltage "H" Input Current 1 "H" Input Current 2 "H" Input Current 3 "L" Input Current 1 "L" Input Current 2 *2 *1 Symbol VIH VIL VOH VOL IIH1 IIH2 IIH3 IIL1 IIL2 IDD1 Condition -- -- IOH=-1 mA IOL=2 mA VIH=VDD Internal pull-down resistor Applies to OSC1 pin only. VIH=VDD VIL=GND Internal pull-up resistor VREF=VDD, AOUT bias voltage=0V At maximum output current Dynamic Supply Current 2 *4 IDD2 VREF=GND, AOUT bias voltage=0V Standby Current IDS Ta=-40 to +70C Ta=70 to 85C At maximum output current, AOUT Output Current VREF Pin Pull-down Resistance IAOUT RVREF VREF=GND, AOUT bias voltage=0V -- 7 10 13 kW 1.4 3.2 5 mA -- -- -- -- 5 20 A A -- -- 5.5 mA Min. 2.7 -- 2.6 -- -- 10 -- -10 -100 -- Typ. -- -- -- -- -- 30 -- -- -30 0.15 Max. -- 0.5 -- 0.4 10 100 15 -- -10 0.5 Unit V V V V A A A A A mA Dynamic Supply Current 1 *3 *1 *2 *3 *4 Applicable to SW2-SW0 Applicable to RESET, RND Dynamic supply current (excluding DAC output current) Dynamic supply current at maximum output current 10/51 Semiconductor AC Characteristics MSM9802/03/05-xxx (VDD=5.0 V, GND=0 V, Ta=-40 to +85C) Parameter Master Clock Duty Cycle RESET Input Pulse Width RESET Input Time After Power-on RND Input Pulse Width SW0-SW2 Input Pulse Width BUSY Output Time Chattering Prevention Time 1 Chattering Prevention Time 2 D/A Converter Change Time Standby Transition Time Silence Time Between Phrases Random Address Fetch Time Symbol fduty tw(RST) tD(RST) tw(RAN) tw(SW) tSBS tCHA tCHB tDAR, tDAF tSTB tBLN tRA Condition -- -- -- -- -- -- -- -- -- -- -- (note) (note) (note) (note) (note) (note) Min. 40 10 0 100 16 -- 14 -- 60 200 350 15 Typ. 50 -- -- -- -- -- 15 -- 64 250 375 16 Max. 60 -- -- -- -- 10 16 16 68 300 500 17 Unit % s s s ms s ms ms ms ms s s fSAM=8 kHz (note) (Note) Proportional to master the periods of oscillation frequencies fOSC1 and fOSC2. The rated values show values when the standard master oscillation frequency is used. 11/51 Semiconductor TIMING DIAGRAMS AC Characteristics at Power-On VDD VDDMin RESET (I) BUSY (O) SW2-SW0 (I) AC Characteristics in Standby Status and when the IC is Activated A2-A0 (I) SW2-SW0 (I) First phrase First phrase SW0 (I) BUSY (O) AOUT (O) Standby status Repeated Playback Timing A2-A0 (I) SW2-SW0 (I) SW0 (I) BUSY (O) AOUT (O) , ,,,, MSM9802/03/05-xxx tD(RST) tW(RST) "000" "000" tw(SW) Address data fetch tCHA tSBS tDAR tSTB tDAF Standby transition time Standby status Oscillation start D/A converter change time First phrase First phrase "000" "000" Single phrase playback Single phrase repeated playback tBLN 12/51 Semiconductor Timing when Changing from SW2 to SW0 During Playback A2-A0 (I) First phrase First phrase SW2-SW0 (I) SW2 (I) "L" SW1 (I) SW0 (I) BUSY (O) AOUT (O) MSM9802/03/05-xxx Second phrase "000" "000" Second phrase "000" tCHB tBLN First phrase playback Second phrase playback First phrase playback stops Repeated Playback Timing for Random Playback RND (I) BUSY (O) AOUT (O) First phrase playback Same phrase repeated playback tBLN Oscillation start Timing when Changing from A2 to A0 During Playback A2-A0 (I) (Ex.) SW2-SW0 (I) SW0 (I) BUSY (O) AOUT (O) Second phrase First phrase First phrase tCHA Second phrase Address data fetch "000" First phrase (Second phrase) "000" tBLN First phrase playback Second phrase playback 13/51 Semiconductor MSM9802/03/05-xxx FUNCTIONAL DESCRIPTION 1. Playback Code Specification The user can specify a maximum of 56 phrases. Table 1.1 shows the settings by the A2-A0 and SW2-SW0 pins. Table 1.1 User-specified Phrases A2-A0 000 SW2-SW0 000 001 111 111 Code Details Inhibit code User-specified phrase (56 phrases) 2. Pull-up/Pull-down Resistor The RESET and RND pins have internal pull-up resistors and the SW2-SW0 pins have internal pull-down resistors. 3. Stand-alone Mode In a stand-alone mode, the SW input interface function and the random playback function can be used. 3.1 SW input interface With the SW input interface, speech synthesis starts when the state of the SW2-SW0 pins has changed. To prevent chattering, the address data is latched 16 ms (tCHA) after the state of SW2SW0 has changed. Voice synthesis does not start if the state of the A2-A0 pins has changed. Set the RND pin to "H" level if the random playback function is not used. Set the A2-A0 pins to "L" level at power-on or at reset. The SW input interface is effective when the MSM9802/03/05 is operated using a push-button switch. Voice synthesis starts when an address is changed by pressing the push-button switch. If the push-button switch is released during playback, then playback stops after the current phrase is completed. A2-A0 (I) SW2-SW1 (I) "L" SW0 (I) BUSY (O) AOUT (O) Oscillation start tCHA tw(SW) Figure 3.1 SW Input Interface Single-Phrase Playback Timing 14/51 Semiconductor MSM9802/03/05-xxx If playback is attempted at an unused address in the phrases, AOUT goes to 1/2 IAOUT and playback does not occur. Figure 3.2 shows the timing. A2-A0 (I) SW2-SW1 (I) "L" SW0 (I) BUSY (O) AOUT (O) Oscillation start Figure 3.2 Timing when Playback is Attempted at an Unused Phrase Address In the SW input interface, no phrase is triggered when SW2 to SW0 are all set to "0". Therefore, when the circuit consists of a diode matrices that use push-button switches, the maximum playback phrases are 56 phrases. A2-A0 000 001 002 111 8 codes SW2-SW0 (000) 001 002 111 7 codes = 56 Code Prohibited = 56 Phrases 3.2 Random playback function The random playback function randomly generates 15 different addresses corresponding to the four bits of the addresses of A0 and SW2-SW0 (except ALL "L") on the IC, after which playback commences. Therefore, any input to A0 and SW2 to SW0 pins from external control is invalid. Hold these 4 pins either "H" or "L" level. SW2 to SW0 pins may be held open as they have internal pull-down resistor. Playback may not occur if all the 15 addresses have not been assigned a phrase. Care must be taken when creating ROM data. For example, when four phrases, "sunny", "rainy", "cloudy", and "snowy", are to be played randomly, set the phrases as shown in Table 3.1 in which a phrase is assigned to all the 15 addresses. The four phrases are then played back at random as shown below. 15/51 Semiconductor MSM9802/03/05-xxx Table 3.1 Random Address Setup Example A2, A1 00 A0, SW2-SW0 0001 0010 0011 0100 0101 Phrase sunny rainy cloudy snowy sunny 1110 1111 rainy snowy Random playback starts when the timing shown in Figure 3.3 is input to the RND pin. A random address is fixed based on the "H" level time of the RND pin during IC oscillation. Random address is captured at the fall of the RND pin, and voice playback commences. Therefore, when power is turned on, or when RESET is input, the phrase at fixed address "0001" is played while the random counter remains initialized until random playback is initiated. RESET (I) RND (I) tW (RAN) Random address fixed time tW (RAN) Random address fixed time tRA BUSY (O) AOUT (O) Oscillation start tRA Playback (Address = 0001) Playback (Address = random) Figure 3.3 Random Address Capture 16/51 Semiconductor Table 3.2 Random Playback Address A2, A1 00 A0, SW2 to SW0 0001 0010 0011 0100 MSM9802/03/05-xxx Phrase (Sample) Hit Hit Hit Out Out Hit Out Out Out Out White Black Red Blue Green *** 1111 01 0001 0010 0011 0100 *** 1111 10 0001 0010 0011 0100 *** 1111 11 0001 1111 For a random address, 15 phrases can be set for each logical condition of addresses A2 and A1 (i.e., "00", "01", "10", and "11"). In random playback, the four logic states ("000000", "010000", "100000" and "110000") in userspecified phrases cannot be used. Take it into consideration when creating ROM data. A random address is set by the "H" level time of the RND pin, so if the same pulse width is input by microcontroller, the random address fixed time becomes constant, and a random phrase may not be played under these conditions. The random address fixed time must be inconsistent in order to produce random playback. RND (I) Invalid pulse Pulse input during this time period is invalid BUSY (O) AOUT (O) Oscillation start Figure 3.4 Timing when a Pulse is Input to the RND Pin During Random Playback *** *** *** *** *** *** *** 17/51 Semiconductor MSM9802/03/05-xxx Table 3.3 Random Playback and Stop Address A2, A1 00 1111 01 0001 A0, SW2-SW0* 0001 Code Details Random playback address (15 addresses) Stop address * Address(es) corresponding to the A0 and SW2-SW0 pins SW0 SW1 SW2 A0 A1 A2 RND Figure 3.5 Circuit Example for Random Playback Stop An unused user-specified address is used as a stop address, therefore the IC can enter standby without voice playback, as shown in Figure 3.2. 18/51 Semiconductor MSM9802/03/05-xxx APPLICATION CIRCUITS VDD S3 S2 S1 SW0 SW1 SW2 AOUT VREF BUSY RND A0 S4 A1 A2 XT/CR CPU/STD GND RESET OSC3 OSC2 OSC1 A2 S1 S4="L" S2 S3 S1 S4="H" S2 S3 0 0 0 0 0 0 A1 0 0 0 0 0 0 A0 0 0 0 1 1 1 SW2 0 0 1 0 0 1 SW1 0 1 0 0 1 0 SW0 1 0 0 1 0 0 Address [HEX] 01 02 04 09 0A 0C Application Circuit for Playing Six Phrases Using Four Switches 19/51 1 VDD 2 3 4 5 6 7 Semiconductor SW0 SW1 SW2 VREF BUSY RESET XT/CR CPU/STD RND A0 OSC3 A1 A2 GND OSC2 OSC1 AOUT Application Circuit Using Switches MSM9802/03/05-xxx 20/51 Semiconductor BLOCK DIAGRAM (2) MICROCONTROLLER INTERFACE MODE (CPU/STD: "H" level) I5 I4 I3 I2 I1 I0 Address Controller 6 16-Bit (MSM9802) 17-Bit (MSM9803) 18-Bit (MSM9805) Multiplexer 512-Kbit (MSM9802) 1-Mbit (MSM9803) 2-Mbit (MSM9805) ROM (Including 11Kbit of Edit ROM & Address ROM) 8 CPU/STD ST NAR I/O Interface 16-Bit (MSM9802) 17-Bit (MSM9803) 18-Bit (MSM9805) Address Counter DATA Controller PCM Synthesizer 10 OSC1 OSC2 OSC3/TEST OSC XT/RC Timing Controller 10-Bit DAC & LPF MSM9802/03/05-xxx 21/51 XT/CR RESET VDD GND VREF AOUT Semiconductor MSM9802/03/05-xxx PIN CONFIGURATION (TOP VIEW) I3 I4 I5 RESET XT/CR NAR GND VREF AOUT 1 2 3 4 5 6 7 8 9 18 I2 17 I1 16 I0 15 ST 14 CPU/STD 13 OSC3/TEST 12 OSC2 11 OSC1 10 VDD 18-Pin Plastic DIP Note: Applicable to MSM9802-xxxRS, MSM9803-xxxRS, and MSM9805-xxxRS. VDD 1 2 3 4 5 6 7 8 9 OSC1 OSC2 NC 21 NC OSC3/TEST NC 19 NC CPU/STD ST NC 16 NC I0 10 I1 11 I2 12 15 I5 14 I4 13 I3 24 AOUT 23 VREF 22 GND 20 NAR 18 XT/CR 17 RESET NC: No connection 24-Pin Plastic SOP Note: Applicable to MSM9802-xxxGS-K, MSM9803-xxxGS-K, and MSM9805-xxxGS-K. 22/51 Semiconductor MSM9802/03/05-xxx VDD OSC1 OSC2 NC NC OSC3/TEST NC CPU/STD NC 1 2 3 4 5 6 7 8 9 30 AOUT 29 VREF 28 GND 27 NC 26 NC 25 NAR 24 NC 23 XT/CR 22 NC 21 RESET 20 NC 19 NC 18 I5 17 I4 16 I3 ST 10 NC 11 NC 12 I0 13 I1 14 I2 15 NC: No connection 30-Pin Plastic SSOP Note: Applicable to MSM9802-xxxGS-AK, MSM9803-xxxGS-AK, and MSM9805-xxxGS-AK. 23/51 Semiconductor MSM9802/03/05-xxx PIN DESCRIPTIONS Pin DIP SOP SSOP Symbol Type Description The IC enters the standby state if this pin is set to "L" level. At this time, oscillation stops and AOUT drives a current of 0 mA and becomes GND 4 17 21 RESET I level, then the IC returns to the initial state. Apply a "L" pulse upon power-on. This pin has an internal pull-up resistor. Signal output pin that indicates whether the 6-bit LATCH (see Block 6 20 25 NAR O Diagram) is idle. NAR at "H" level indicates that the LATCH is empty and ST input is enabled. XT/RC switching pin. Set to "H" level if ceramic oscillation is used. Set to "L" level if RC oscillation is used. Microcontroller interface/stand-alone mode switching pin. Set to "H" level if the MSM9802/03/05 is used in microcontroller interface mode. Volume setting pin. If this pin is set to GND level, the maximum current is forced in, and if set to VDD level, the minimum current is forced in. An approx. 10 kW pull-down resistor is internally connected to this pin during operation. Voice output pin. 5 14 18 7 23 8 XT/CR CPU/STD I I 8 23 29 VREF I 9 7 10 24 22 1 30 28 1 AOUT GND VDD O -- -- The voice signals are output as current changes. In standby state, this pin drives a current of 0 mA and becomes GND level. Ground pin. Power supply pin. Insert a bypass capacitor of 0.1 mF or more between this pin and the GND pin. Ceramic oscillator connection pin when ceramic oscillation is selected. RC connection pin when RC oscillation is selected. Input from this pin if external clock is used. Ceramic oscillator connection pin when ceramic oscillation is selected. RC connection pin when RC oscillation is selected. Leave this pin open if external clock is used. Outputs "L" level in standby state. Leave this pin open when ceramic oscillation is used. 11 2 2 OSC1 I 12 3 3 OSC2 O 13 5 6 OSC3/TEST O RC connection pin when RC oscillation is selected. Outputs "H" level in standby state when RC oscillation is selected. Voice synthesis starts at fall of ST, and addresses I0 to I5 are fetched 15 16-18 1-3 8 10 ST I at rise of ST. Input ST when NAR, the status signal, is at "H" level. This pin has internal pull-up resistor. Phrase input pins corresponding to playback sound. 10-15 13-18 I0 - I5 I 24/51 Semiconductor MSM9802/03/05-xxx ABSOLUTE MAXIMUM RATINGS (GND=0V) Parameter Power Supply Voltage Input Voltage Storage Temperature Symbol VDD VIN TSTG Condition Ta=25C -- Rating -0.3 to +7.0 -0.3 to VDD+0.3 -55 to +150 Unit V V C RECOMMENDED OPERATING CONDITIONS (GND=0 V) Parameter Power Supply Voltage Operating Temperature Original Oscillation Frequency 1 Original Oscillation Frequency 2 Symbol VDD Top fOSC1 fOSC2 Condition -- -- When crystal is selected When RC is selected (*1) Min. 3.5 200 Range 2.0 to 5.5 -40 to +85 Typ. 4.096 256 Max. 4.5 300 Unit V C MHz kHz *1 The accuracy of the oscillation frequency when RC oscillation is selected depends largely on the accuracy of the external R and C. 25/51 Semiconductor MSM9802/03/05-xxx ELECTRICAL CHARACTERISTICS DC Characteristics (VDD=5.0 V, GND=0 V, Ta=-40 to +85C, unless otherwise specified) Parameter "H" Input Voltage "L" Input Voltage "H" Output Voltage "L" Output Voltage "H" Input Current 1 "H" Input Current 2 "L" Input Current 1 "L" Input Current 2 *1 Symbol VIH VIL VOH VOL IIH1 IIH2 IIL1 IIL2 IDD1 Condition -- -- IOH=-1 mA IOL=2 mA VIH=VDD Applies to OSC1 pin only. VIH=VDD VIL=GND Internal pull-up resistor VREF=VDD, AOUT bias voltage=0V At maximum output current Dynamic Supply Current 2 *3 IDD2 VREF=GND, AOUT bias voltage=0V Standby Current IDS Ta=-40 to +70C Ta=70 to 85C At maximum output current, AOUT Output Current VREF Pin Pull-down Resistance IAOUT RVREF VREF=GND, AOUT bias voltage=0V -- 7 10 13 kW 6 9.5 15 mA -- -- -- -- 10 50 A A -- -- 16 mA Min. 4.2 -- 4.6 -- -- -- -10 -200 -- Typ. -- -- -- -- -- -- -- -90 0.4 Max. -- 0.8 -- 0.4 10 15 -- -30 1 Unit V V V V A A A A mA Dynamic Supply Current 1 *2 *1 Applicable to RESET, ST *2 Dynamic supply current (excluding DAC output current) *3 Dynamic supply current at maximum output current 26/51 Semiconductor DC Characteristics MSM9802/03/05-xxx (VDD=3.1 V, GND=0 V, Ta=-40 to +85C, unless otherwise specified) Parameter "H" Input Voltage "L" Input Voltage "H" Output Voltage "L" Output Voltage "H" Input Current 1 "H" Input Current 2 "L" Input Current 1 "L" Input Current 2 *1 Symbol VIH VIL VOH VOL IIH1 IIH2 IIL1 IIL2 IDD1 Condition -- -- IOH=-1 mA IOL=2 mA VIH=VDD Applies to OSC1 pin only. VIH=VDD VIL=GND Internal pull-up resistor VREF=VDD, AOUT bias voltage=0V At maximum output current Dynamic Supply Current 2 *3 IDD2 VREF=GND, AOUT bias voltage=0V Standby Current IDS Ta=-40 to +70C Ta=70 to 85C At maximum output current, AOUT Output Current VREF Pin Pull-down Resistance IAOUT RVREF VREF=GND, AOUT bias voltage=0V -- 7 10 13 kW 1.4 3.2 5 mA -- -- -- -- 5 20 A A -- -- 5.5 mA Min. 2.7 -- 2.6 -- -- -- -10 -100 -- Typ. -- -- -- -- -- -- -- -30 0.15 Max. -- 0.5 -- 0.4 10 15 -- -10 0.5 Unit V V V V A A A A mA Dynamic Supply Current 1 *2 *1 Applicable to RESET, ST *2 Dynamic supply current (excluding DAC output current) *3 Dynamic supply current at maximum output current 27/51 Semiconductor AC Characteristics MSM9802/03/05-xxx (VDD=5.0 V, GND=0 V, Ta=-40 to +85C) Parameter Master Clock Duty Cycle RESET Input Pulse Width RESET Input Time After Power-on ST Signal Setup Time ST Input Pulse Width ST-ST Pulse Interval Data Setup Time Data Hold Time NAR Output Time (1) NAR Output Time (2) NAR Output Time (3) NAR Output Time (4) D/A Converter Change Time Standby Transition Time (at end of voice output) Silence Time Between Phrases Symbol fduty tw(RST) tD(RST) tSTP t(ST) tSS tDW tWD tSNS tNAA tNAB tNAC tDAR, tDAF tSTB tBLN Condition -- -- -- At power-on -- Upon entering the stop code (note) -- -- fSAM=8 kHz fSAM=8 kHz (note) fSAM=8 kHz (note) fSAM=8 kHz (note) -- -- (note) (note) Min. 40 10 0 1 0.35 40 1 1 -- 350 315 350 60 200 350 Typ. 50 -- -- -- -- -- -- -- -- 375 440 375 64 250 375 Max. 60 -- -- -- 2000 -- -- -- 10 400 500 500 68 300 500 Unit % s s s s s s s s s s s ms ms s fSAM=8 kHz (note) (Note) Proportional to master the periods of oscillation frequencies fOSC1 and fOSC2. The rated values show values when the standard master oscillation frequency is used. 28/51 Semiconductor TIMING DIAGRAMS AC Characteristics at Power-On VDD VDDMin RESET (I) NAR (O) ST (O) AC Characteristics in Standby Status and when the IC is Activated I5-I0 (I) NAR (O) AOUT (O) ,,, , , MSM9802/03/05-xxx tD(RST) tW(RST) tSTP t(ST) ST ( I ) tDW tWD tSNS tNAA tDAR Oscillation start Voice playback tSTB tDAF Standby transition time D/A converter change time 29/51 Semiconductor Playback Timing I5-I0 (I) 1st phrase address 2nd phrase address 3rd phrase address ST ( I ) tNAC NAR (O) tNAB AOUT (O) tDAR Oscillation start 1st phrase playback 2nd phrase playback 3rd phrase playback tBLN MSM9802/03/05-xxx 30/51 Semiconductor MSM9802/03/05-xxx FUNCTIONAL DESCRIPTION 1. Playback Code Specification The user can specify a maximum of 63 phrases. Table 1.1 shows the settings by the I5-I0 pins. Table 1.1 User-specified Phrases I5-I0 000000 000001 111111 Code Details Stop code User-specified phrase (63 Phrases) 2. Address Data If a phrase is input at I5-I0 pins by address data, and if a ST pulse is then applied, voice playback starts. Figure 2.1 shows voice start timing. Figure 2.2 shows timing when an address other than a phrase is input. I5-I0 (I) ST ( I ) NAR (O) AOUT (O) Oscillation start User phrase Voice end Figure 2.1 Voice Start Timing I5-I0 (I) ST ( I ) NAR (O) AOUT (O) Oscillation start Address other than user phrase Figure 2.2 Timing when Address Other than a Phrase is Input in Stand-by Mode 31/51 Semiconductor MSM9802/03/05-xxx 3. Stop Code If I5-I0 are set to "000000" during voice playback, and a ST signal is input, playback stops regardless of whether NAR is at "H" or "L" level, then AOUT becomes 1/2 IAOUT. Stop code becomes valid at the falling edge of ST. Figure 3.1 shows stop code input timing. I5-I0 (I) "000000" tSS ST ( I ) NAR (O) User phrase AOUT (O) Voice stop Figure 3.1 Stop Code Input Timing The stop code does not initialize internal units but only stops playback. To initialize an internal register, use the RESET pin. 32/51 Semiconductor MSM9802/03/05-xxx 4. Generating Pseudo-BUSY Signal through NAR Pin If the application in use requires a BUSY signal when this IC is used in microcontroller interface mode, a pseudo-BUSY signal can be generated through the NAR pin by controlling signal timing, as shown below. 4.1 When edit ROM is not used I5-I0 01 (Phrase 1) 02 (Phrase 2) 03 (Phrase 3) 04 (Silence phrase of 32 ms or more) ST 30ms or more NAR (Pseudo-BUSY) AOUT tDAR Phrase 1 Phrase 2 tNAB Phrase 3 tNAB Silence phrase 30ms or more 30ms or more tSTB tDAF tNAB 4.2 When edit ROM is used 01 I5-I0 (Phrases 1+2+3) 02 (Silence phrase of 32 ms or more) ST 30ms or more NAR (Pseudo-BUSY) AOUT tDAR Phrase 1 Phrase 2 tBLN Phrase 3 tBLN Silence phrase tSTB tDAF tNAB 33/51 Semiconductor MSM9802/03/05-xxx APPLICATION CIRCUIT + - VDD P1.5 P1.4 P1.3 P1.2 P1.1 P1.0 P2.2 P2.1 P3.0 I5 I4 I3 I2 I1 I0 ST RESET NAR CPU/STD XT/CR OSC2 OSC1 GND VREF MSC1157 (Speaker AMP) VCC MSM83C154 (MCU) SP SP MSM9802/03/05 AOUT AIN RESET XTAL1 XTAL2 OSC3 STBY VR GND SEL + - Application Circuit in Microcontroller Interface 34/51 Semiconductor MSM9802/03/05-xxx (3) Common 1. Sampling Frequency As shown in Table 1.1, 7 sampling frequencies are available. A sampling frequency can be selected and assigned to each phrase in ROM data. Table 1.1 Sampling Frequency Sampling Frequency At standard oscillation frequency 4.0 kHz 5.3 kHz 6.4 kHz 8.0 kHz 10.6 kHz 12.8 kHz 16.0 kHz Frequency diving ratio XT/CR="H" Ceramic Oscillation fOSC1/1024 fOSC1/768 fOSC1/640 fOSC1/512 fOSC1/384 fOSC1/320 fOSC1/256 XT/CR="L" CR Oscillation fOSC2/64 fOSC2/48 fOSC2/40 fOSC2/32 Unavailable Unavailable Unavailable Note: When RC oscillation is selected, 10.6 kHz, 12.8 kHz, and 16 kHz cannot be selected. 2. Recording/Playback Time Figure 2.1 below shows memory allocation of the on-chip Mask ROM. About 11 Kbits of data area is allocated for the Phrase Control Table, Phrase Data Control and Test Data. Therefore, actual data area for storing sound data equals the total Mask ROM capacity minus 11 Kbits. Phrase Control Table Area Pharase Data Control Area Test Data Area 4K bit 4K bit 3K bit On-chip Mask ROM Capacity 512K bit (MSM9802) 1M bit (MSM9803) 2M bit (MSM9805) User's Area 501K bit (MSM9802) 1013K bit (MSM9803) 2037K bit (MSM9805) Figure 2.1 Memory Allocation of On-chip Mask ROM 35/51 Semiconductor MSM9802/03/05-xxx The playback time is obtained by dividing the memory capacity by the bit rate. The playback time for 8-bit PCM algorithm is obrained by using the following equation. Playback time [sec] = Memory capacity [bit] Bit rate [bps] = Memory capacity [bit] Sampling frequency [Hz] 8 [bit] For example, if all phrases are stored in the MSM9802 at 8 kHz sampling frequency, the maximum playback time is as follows. Playback time = (512-11) 1024 [bit] 8000 [Hz] 8 [bit] = 8.0 [sec] Table 2.1 Maximum playback time Maximum playback time (sec) fSAM=4.0kHz fSAM=6.4kHz fSAM=8.0kHz fSAM=16.0kHz 16.0 32.4 65.1 10.0 20.2 40.7 8.0 16.2 32.5 4.0 8.1 16.2 Model MSM9802 MSM9803 MSM9805 ROM capacity 512K bit 1M bit 2M bit User's area 501K bit 1013K bit 2037K bit 3. Playback Method This IC provides two kinds of playback methods, non-linear PCM algorithm and straight PCM algorithm. When the 8-bit non-linear PCM algorithm is selected, sound quality can be improved because a resolution equivalent to 10-bit straight PCM is available around the waveform center. You can select either non-linear PCM algorithm or straight PCM algorithm for each phrase. Table 3.1 shows the relationship between playback methods and applicable sounds. It is recommended to evaluate the sound quality before actual use. Table 3.1 Relationship between playback methods and applicable sounds Playback method 8-bit straight PCM algorithm Applicable sound BEEP tone, sound effects 8-bit non-linear PCM algorithm Human voice 36/51 Semiconductor 4. Phrase Control Table MSM9802/03/05-xxx Because the LSI contains the Phrase Control Table, it is possible to play back multiple phrases in succession by a single easy control operation like controlling a single regular phrase playback. Up to 8 combined phrases including a silence can be registered in a single address in the Phrase Control Table. Further, you can use the maximum memory space for data storage because it is not required to have the same phrase data. To show an example, let's assume that your application needs to speak two similar sentences, "It is fine today" and "It is rainy today." The two sentences have the common words "it", "is" and "today". What you have to do is to prepare these common sound data, not in sentences but in words, and to store each combined phrase data in Phrase Control Table as shown in Table 4.1 and Figure 4.1 Multiple phrases can be played continuously merely by specifying a desired phrase using an X address. For an example from Table 4.1, when address "01" is specified, "It is fine today" is played, and when address"02" is specified, "It is rainy" is played. Phrase Control Table, a silence can be inserted without using the User's Area. Minimum time for silence Maximum time for silence Time unit for setting up silence 32 ms 2016 ms 32 ms Table 4.1 Matrix of the Phrase Control Table No. 1 2 3 *** X-Address (HEX) 01 02 03 *** Y-Address (Up to 8 phrases) [01] [02] Silence [10] [03] [01] [02] Silence [12] [03] Sound Data It is (silence) fine today. It is (silence) rainy today. *** [01] [02] [10] [21] [11] [12] [22] [03] It is fine becoming cloudy, rainy in some areas today. 62 63 3E 3F 37/51 Semiconductor MSM9802/03/05-xxx Figure 4.1 Phrase Combination Matrix for Phrase Control Table Phrase Control Table Area No. X-Address 1 2 3 4 5 6 7 8 9 01 02 03 04 05 06 07 08 09 Silence time setting (32ms n) 0 1 2 63 3F 63 Silence time 32 ms 64 ms 2016 ms Phrase Addigned 1 2 3 4 5 6 7 8 [01] [02] [12] [03] -- -- -- it is rainy today Phrase Data Registration Area No. Y-Address 1 2 3 16 17 18 19 32 33 34 01 02 03 10 11 12 13 20 21 22 Phrase it is today fine cloudy rainy snowy ocasionally becoming in some areas Silence (64ms) 63 3F -- 38/51 Semiconductor 5. RC Oscillation MSM9802/03/05-xxx Figure 5.1 shows an external circuit using RC oscillation. Figure 5.2 shows the RC oscillation frequency characteristics. R1 OSC1 R2 OSC2 C OSC3 Figure 5.1 RC Oscillation 500 450 400 Oscillaiton Frequency fOSC (kHz) 350 300 250 200 150 100 50 0 VDD=3 V C=47 pF VDD=5 V C=47 pF VDD=5 V C=30 pF R1=100 kW VDD=3 V C=30 pF 10 20 30 40 50 60 70 Load Resistance R2 (kW) Figure 5.2 RC Oscillation Frequency Characteristics 39/51 Semiconductor 5.1 Determining RC constants MSM9802/03/05-xxx The RC oscillation frequency characteristics are shown in Figure 5.2. If fosc is set to 256 kHz, use the following values as a guide (see Figure 5.2) to set the C and R2 that fit the printed-circuit board type used. R1=100 kW, R2=30 kW, C=30 pF When choosing RC oscillation, the RC oscillation frequency varies according to the fluctuation of the external C and R2. 5.2 Fluctuation of RC oscillation frequencies When choosing RC oscillation, the error of RC oscillation frequency due to process variations of the IC is 4% maximum, and the fluctuation of the RC oscillation frequency when using a capacitor (C) of 1% accuracy and a resistor (R2) of 2% accuracy is a maximum of 7% approximately. 6. Ceramic Oscillation Figure 6.1 shows an external circuit using a ceramic oscillator. OSC1 OSC2 C1 C2 Figure 6.1 Ceramic Oscillation Diagram 40/51 Semiconductor MSM9802/03/05-xxx For example, the following table shows the optimum load capacitances, power supply voltage ranges, and operating temperature ranges when ceramic oscillators made by Murata MFG Co., Ltd., Kyocera Co., Ltd. and TDK Co., Ltd. are used. Ceramic oscillator Maker Murata MFG. Optimal load capacity C1 (pF) 30 Built in 15 33 4.0 Built in 4.0 Built in Built in Built in C2 (pF) 30 Built in 15 33 Type CSA4.09MGU CST4.09MGWU CSTCC4.00MG CSTCC4.00MGU PBRC4.00A KBR-4.0MSB PBRC4.00B KBR-4.0MKC Frequency (MHz) 4.096 4.0 supply voltage range (V) 3.0 to 5.5 3.6 to 5.5 2.7 to 5.5 Operating temperature range (C) -40 to +85 Kyocera 3.1 to 5.5 -20 to +80 TDK CCR4.00MC3 2.4 to 5.5 -40 to +85 (Note) When a 4 MHz ceramic oscillator is used, the playback speed of MSM9802/03/05 is slower by 2 percent than that of an analysis tool or a demonstration board. 41/51 Semiconductor 7. Low-Pass Filter MSM9802/03/05-xxx In this IC, all voice outputs are through the built-in low-pass filter (LPF). Figure 7.1 and Table 7.2 show the LPF frequency characteristics and LPF cutoff frequency respectively. Only the voice output through LPF is enabled in this IC. [dB] 20 10 0 -10 -20 -30 -40 -50 -60 -70 -80 10 100 1k 10k [Hz] Figure. 7.1 LPF Frequency Characteristics (fSAM=8 kHz) Table 7.2 LPF Cutoff Frequency Sampling Frequency (kHz) (fSAM) 4.0 5.3 6.4 8.0 10.6 12.8 16.0 Cutoff Frequency (kHz) (fCUT) 1.2 1.6 2.0 2.5 3.2 4.0 5.0 42/51 Semiconductor 8. Standby Transition MSM9802/03/05-xxx When playback of a phrase is finished, if playback of the next phrase does not start up within tSTB (0.25 sec. typ.), the IC enters standby status and the entire operation stops. A2 - A0 SW2 - SW1 "L" SW0 BUSY AOUT Figure 8.1 Timing for Voice Playback during D/A Converter Change Time (Stand-alone Mode) I5 - I0 ST NAR AOUT Figure 8.2 Timing for Voice Playback during D/A Converter Change Time (Microcontroller Interface Mode) If playback is attempted during D/A converter change time as shown in figures 8.1 and 8.2, the IC exits from standby status and the output from the D/A converter begins going to the 1/2 IAOUT level. When the output reaches 1/2 IAOUT, voice playback starts. 43/51 Semiconductor MSM9802/03/05-xxx 9. Voice Output Unit Equivalent Circuit (AOUT, FREF Pins) Current-Sourcing Type D/A Converter VREF 10kW (TYP) PCM Value VDD AOUT IAOUT Standby Signal (The above switch positions show those when the circuit is active.) Figure 9.1 Voice Output Unit Equivalent Circuit 44/51 Semiconductor MSM9802/03/05-xxx D/A CONVERTER OUTPUT CURRENT CHARACTERISTICS Power Supply Voltage vs. Output Current Characteristics (Ta=25C, VAOUT=0V) AOUT Output Current [mA] 14 12 10 8 6 4 2 0 0 1 2 3 4 5 6 Power Supply Voltage [V] Temperature vs. Output Current Characteristics (VDD=5V, VAOUT=0V) AOUT Output Current [mA] 14 12 10 8 6 4 2 0 -50 -25 0 25 50 75 100 Ambient Temperature Ta [C] VREF Voltage vs. Output Current Characteristics (Ta=25C, VDD=5V, VAOUT=0V) 10 AOUT Output Current [mA] 8 6 4 2 0 0.0 0.5 1.0 1.5 2.0 2.5 VREF [V] 3.0 3.5 4.0 4.5 5.0 45/51 Semiconductor MSM9802/03/05-xxx PAD CONFIGURATION MSM9802 Pad Layout Chip size Chip thickness Pad size Substrate potential : : : : X=3.22mm Y=3.17mm 350m 30m 110m 110m GND Y-axis 3 4 MSM9802 2 1 18 17 16 15 14 X-axis 5 (NC) 6 13 7 8 9 10 11 12 Pad Coordinates (Chip center is located at X=0 and Y=0) (Unit: m) Pad No. 1 2 3 4 5 6 7 8 9 Pad Name I3/ (A0) I4/ (A1) I5/ (A2) RESET XT/CR NAR GND VREF AOUT X-axis -415 -816 -1460 -1460 -1458 -1460 -1460 -1135 -585 Y-axis 1385 1385 1385 1049 -20 -899 -1375 -1333 -1333 Pad No. 10 11 12 13 14 15 16 17 18 Pad Name VDD OSC1 OSC2 OSC3 CPU/STD ST/(RND) I0/(SW0) I1/(SW1) I2/(SW2) X-axis 462 742 1349 1460 1389 1389 1389 719 276 Y-axis -1347 -1333 -1333 -972 183 1058 1385 1385 1385 Pad name in parentheses is for stand-alone mode. 46/51 Semiconductor MSM9802/03/05-xxx MSM9803 Pad Layout Chip size Chip thickness Pad size Substrate potential : : : : X=3.22mm Y=4.06mm 350m 30m 110m 110m GND Y-axis 3 2 1 18 17 16 4 MSM9803 15 14 5 X-axis (NC) 6 13 7 8 9 10 11 12 Pad Coordinates (Chip center is located at X=0 and Y=0) Pad No. 1 2 3 4 5 6 7 8 9 Pad Name I3/ (A0) I4/ (A1) I5/ (A2) RESET XT/CR NAR GND VREF AOUT X-axis -415 -816 -1460 -1460 -1458 -1460 -1460 -1135 -585 Y-axis 1829 1829 1829 1493 424 -1342 -1818 -1776 -1776 Pad No. 10 11 12 13 14 15 16 17 18 Pad Name VDD OSC1 OSC2 OSC3 CPU/STD ST/(RND) I0/(SW0) I1/(SW1) I2/(SW2) X-axis 452 742 1349 1460 1389 1389 1389 720 276 (Unit: m) Y-axis -1788 -1776 -1776 -1415 628 1502 1829 1829 1829 Pad name in parentheses is for stand-alone mode. 47/51 Semiconductor MSM9802/03/05-xxx MSM9805 Pad Layout Chip size Chip thickness Pad size Substrate potential : : : : X=3.22mm Y=5.96mm 350m 30m 110m 110m GND Y-axis 3 2 1 18 17 16 15 4 5 MSM9805 14 X-axis (NC) 6 13 7 8 9 10 11 12 Pad Coordinates (Chip center is located at X=0 and Y=0) Pad No. 1 2 3 4 5 6 7 8 9 Pad Name I3/ (A0) I4/ (A1) I5/ (A2) RESET XT/CR NAR GND VREF AOUT X-axis -415 -816 -1460 -1460 -1458 -1460 -1460 -1136 -585 Y-axis 2777 2777 2777 882 364 -1546 -2768 -2726 -2726 Pad No. 10 11 12 13 14 15 16 17 18 Pad Name VDD OSC1 OSC2 OSC3 CPU/STD ST/(RND) I0/(SW0) I1/(SW1) I2/(SW2) X-axis 452 742 1349 1460 1453 1455 1432 754 312 (Unit: m) Y-axis -2723 -2726 -2726 -1532 267 1338 2777 2777 2777 Pad name in parentheses is for stand-alone mode. 48/51 Semiconductor MSM9802/03/05-xxx PACKAGE DIMENSIONS (Unit : mm) DIP18-P-300-2.54 Package material Lead frame material Pin treatment Solder plate thickness Package weight (g) Epoxy resin 42 alloy Solder plating 5 mm or more 1.30 TYP. 49/51 Semiconductor MSM9802/03/05-xxx (Unit : mm) SOP24-P-430-1.27-K Mirror finish Package material Lead frame material Pin treatment Solder plate thickness Package weight (g) Epoxy resin 42 alloy Solder plating 5 mm or more 0.58 TYP. Notes for Mounting the Surface Mount Type Package The SOP, QFP, TSOP, TQFP, LQFP, SOJ, QFJ (PLCC), SHP, and BGA are surface mount type packages, which are very susceptible to heat in reflow mounting and humidity absorbed in storage. Therefore, before you perform reflow mounting, contact Oki's responsible sales person on the product name, package name, pin number, package code and desired mounting conditions (reflow method, temperature and times). 50/51 Semiconductor MSM9802/03/05-xxx (Unit : mm) SSOP30-P-56-0.65-K Mirror finish Package material Lead frame material Pin treatment Solder plate thickness Package weight (g) Epoxy resin 42 alloy Solder plating 5 mm or more 0.19 TYP. Notes for Mounting the Surface Mount Type Package The SOP, QFP, TSOP, TQFP, LQFP, SOJ, QFJ (PLCC), SHP, and BGA are surface mount type packages, which are very susceptible to heat in reflow mounting and humidity absorbed in storage. Therefore, before you perform reflow mounting, contact Oki's responsible sales person on the product name, package name, pin number, package code and desired mounting conditions (reflow method, temperature and times). 51/51 E2Y0002-29-62 NOTICE 1. The information contained herein can change without notice owing to product and/or technical improvements. Before using the product, please make sure that the information being referred to is up-to-date. The outline of action and examples for application circuits described herein have been chosen as an explanation for the standard action and performance of the product. When planning to use the product, please ensure that the external conditions are reflected in the actual circuit, assembly, and program designs. When designing your product, please use our product below the specified maximum ratings and within the specified operating ranges including, but not limited to, operating voltage, power dissipation, and operating temperature. Oki assumes no responsibility or liability whatsoever for any failure or unusual or unexpected operation resulting from misuse, neglect, improper installation, repair, alteration or accident, improper handling, or unusual physical or electrical stress including, but not limited to, exposure to parameters beyond the specified maximum ratings or operation outside the specified operating range. Neither indemnity against nor license of a third party's industrial and intellectual property right, etc. is granted by us in connection with the use of the product and/or the information and drawings contained herein. No responsibility is assumed by us for any infringement of a third party's right which may result from the use thereof. The products listed in this document are intended for use in general electronics equipment for commercial applications (e.g., office automation, communication equipment, measurement equipment, consumer electronics, etc.). These products are not authorized for use in any system or application that requires special or enhanced quality and reliability characteristics nor in any system or application where the failure of such system or application may result in the loss or damage of property, or death or injury to humans. Such applications include, but are not limited to, traffic and automotive equipment, safety devices, aerospace equipment, nuclear power control, medical equipment, and life-support systems. Certain products in this document may need government approval before they can be exported to particular countries. The purchaser assumes the responsibility of determining the legality of export of these products and will take appropriate and necessary steps at their own expense for these. No part of the contents contained herein may be reprinted or reproduced without our prior permission. MS-DOS is a registered trademark of Microsoft Corporation. 2. 3. 4. 5. 6. 7. 8. 9. Copyright 1999 Oki Electric Industry Co., Ltd. Printed in Japan |
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