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| E2E0021-38-94 Semiconductor Semiconductor MSM6576 GENERAL DESCRIPTION This version: Sep. 1998 MSM6576 Previous version: Mar. 1996 Operatable at 0.9 V and 7-level Detector 4-Bit Microcontroller MSM6576 is a 4-bit, low-power microcontroller that is manufactured in a CMOS silicon-gate process. The microcontroller can be started and operated at a low supply voltage of 0.9 V. This device contains a crystal oscillator circuit, voltage converter circuits, a time base counter, a ROM, a RAM, a stack RAM, I/O ports, interrupt function components, a serial I/O port, a buzzer output circuit, a level detector, and a differential amplifier. This IC is driven by one battery and is well suited to products that need to be operated under low power consumption. FEATURES * The IC can be initialized and operated even at a low voltage of 0.9 V. * Low power consumption * ROM : 2048 words 17 bits * RAM : 64 words 4 bits * I/O port Input-output port : 7 ports 4 bits Input port : 1 port 1 bit * Interrupt functions (real-time interrupt, external interrupt, and serial interrupt) * Serial I/O port : 8-bit sync communication * Buzzer output circuit * Level detector : 7-level detection * Comparator * 73 instructions * Minimum instruction execution time : 61 ms * Operation under single 1.5 V power supply * Built-in 32.768 kHz crystal oscillator circuit * Package options: 44-pin plastic QFP (QFP44-P-910-0.80-K) (Product name : MSM6576-GS-K) 44-pin plastic QFP (QFP44-P-910-0.80-2K) (Product name : MSM6576-GS-2K) Chip indicates a code number. 1/12 P7.3 P7.2 COMPARATOR LEVEL DETECTOR ADCON ADSET ADOUT P7.1 LDIN PORT7 BLOCK DIAGRAM Semiconductor P7.0 SCND0 SERIAL I/O PAGE S-bus FLAG WORK ADRS SBFFL SBFFH D-BUS P6.3 P6.2 P6.1 P6.0 SIN SOUT SCKL SCND1 RAM 64 4 bits ACC A-bus PORT6 EIF INTERRUPT CONTROL EIRT IRQRT FIEX IRQEX PNEX IRQSIO PRIO MODE P5.3 P5.2 P5.1 P5.0 ALU PORT5 PCZIOX PORT4 P4.3 P4.2 P4.1 P4.0 PCHZX0 FRMT PORT3 PROGRAM ROM 204817 bits P3.3 P3.2 P3.1 P3.0 PROGRAM COUNTER MPX PCIOX0 PORT2 MDTH TEMPO MDTL BUZZER BD P2.3 P2.2 P2.1 P2.0 PCHZ0 PORT1 INSTRUCTION REGISTER P1.3 P1.2 P1.1 P1.0 PCIO0 ADDER PORT0 P0.3 P0.2 P0.1 P0.0 XT OSC TMOUT TIME BASE COUNTER INSTRUCTION DECODER STACK RAM VOLTAGE REGULATOR XTB SYSTEM CLOCK GENERATOR VDD VSS1 VSS2 VEE VCP VCM MSM6576 2/12 Semiconductor MSM6576 PIN CONFIGURATION (TOP VIEW) 38 P2.2 37 P2.1 36 P2.0 35 P1.3 34 P1.2 44 P4.0 43 P3.3 42 P3.2 41 P3.1 40 P3.0 39 VDD P4.1 P4.2 P4.3 RESET TEST1 TEST2 TEST3 P5.0 P5.1 1 2 3 4 5 6 7 8 9 33 P1.1 32 P1.0 31 P0.3 30 P0.2 29 P0.1 28 P0.0 27 BD 26 P7.0/SIN 25 P7.1 (LDIN) 24 P7.2 (OPIN2) 23 P7.3 (OPIN1) P6.0 12 P6.2/SCLK 13 P6.3/SOUT 14 XTB 15 XT 16 VDD 17 VSS1 18 VCM 19 VCP 20 VSS2 21 VEE 22 P5.2 10 P5.3 11 44-Pin Plastic QFP Notes: 1. P6.3, P7.0 and P7.1 are used as serial port pins as well. P7.2 and P7.3 are used as up/down counter pins as well. 2. P6.1 is not assigned as a pin. 3/12 Semiconductor MSM6576 PIN DESCRIPTIONS Symbol PORT0 (P0.0 to P0.3) PORT1 (P1.1 to P1.3) PORT2 (P2.0 to P2.3) PORT3 (P3.0 to P3.3) PORT4 (P4.0 to P4.3) PORT5 (P5.0 to P5.3) PORT6 (P6.0 to P6.3) Type I/O I/O I/O I/O I/O I/O I/O Description 4-bit input-output port, I/O switchable, input pull-down resistor/pull-up resistor switchable, with/without input resistor 4-bit input-output port, I/O switchable, with/without input pull-down resistor 4-bit input-output port, I/O switchable, with/without input pull-down resistor P2.0 to P2.3 External interrupt port 4-bit input-output port, I/O switchable, with/without input pull-down resistor 4-bit input-output port, I/O switchable, with/without input pull-down resistor 4-bit input-output port, I/O switchable, with/without input pull-down resistor 4-bit input-output port, I/O switchable, with/without input pull-down resistor P7.0: Input port, without input resistor P6.3: SOUT P6.2: SCLK P7.0: SIN Shared with serial port PORT7 (P7.0 to P7.3) BD RESET TEST1 TEST2 TEST3 XT XTB VDD VSS1 VSS2 VCP VCM VEE I P7.1: Input pin for level detector P7.2: Input pin for comparator P7.3: Input pin for comparator Buzzer output pin Reset pin with input pull-down resistor Testing pins with input pull-down resistor Tie to the negative pole of the battery. Connection pins for crystal 0 V power supply pin -1.5 V supply pin (power supply pin for -1.5 V operation) -3.0 V supply pin (power supply pin for -3.0 V operation) Connection pins for internal potential development capacitor Supply pin for internal logic (constant voltage circuit output pin) O I I I O -- -- -- -- -- 4/12 Semiconductor MSM6576 ABSOLUTE MAXIMUM RATINGS 1.5 V operation Backup flag (BUF) = "0" The input of the constant voltage circuit is equal to the output of the voltage converter (VSS2). VDD = 0 V (VSS1 = battery voltage) Parameter Power Supply Voltage Input Voltage Output Voltage Storage Temperature Symbol VSS1 VIN VOUT TSTG -- Ta = 25C Condition Rating -6.0 to +0.3 VSS1 - 0.3 to +0.3 VSS1 - 0.3 to +0.3 -55 to +150 C V Unit RECOMMENDED OPERATING CONDITIONS 1.5 V operation Backup flag (BUF) = "0" The input of the constant voltage circuit is equal to the output of the voltage converter (VSS2). VDD = 0 V (VSS1 = battery voltage) Parameter Operating Voltage Operating Temperature Oscillation Frequency Symbol Vop Top fOSC Condition -- -- -- Range -3.5 to -0.9 -20 to +70 32.768 Unit V C kHz 5/12 Semiconductor MSM6576 ELECTRICAL CHARACTERISTICS 1.5 V operation Backup flag (BUF) = "0" The input of the constant voltage circuit is equal to the output of the voltage converter (VSS2). (VDD = 0 V, VSS1 = -1.5 V (battery voltage) , VSS2 = -3.0 V, fOSC = 32.768 kHz, CX = 35 pF, Ta = 25C) Parameter Power Supply Current 1 Power Supply Current 2 Oscillation Start Voltage Output Current 1 Output Current 2 Input Current 1 Input Current 2 Input Leakage Current Input Current 3 Input Voltage Level Detector Off Voltage *1 *1 Symbol IDD1 IDD2 -VOSC -IOH1 IOL1 -IOH2 IOL2 IIH1 -IIH2 AIIL A IIH3 -VIH -VIL -VLDoff -VLD6H -VLD5H Level Detector Detecting Voltage -VLD4H -VLD3H -VLD2H -VLD1H -VLD0H Level Detector Settling Time Level Detector Conversion Rate Comparator Offset Voltage Comparator Input Voltage Comparator Conversion Rate tSET fLD -VCMPoff -VCMPin fCMP Condition Level detector OFF Level detector ON Within 2 seconds VO = -0.5 V VO = -1.0 V VO = -0.5 V VO = -1.0 V VI = 0 V, in the input state, with pull-down resistor VI = -1.5 V, in the input state, with pull-up resistor VI = 0 V, -1.5 V, in the input state, without pull-down resistor Min. Typ. Max. Unit Applied Pin -- -- -- 150 150 20 20 3.75 3.75 -- 70 -- 1.2 0 725 841 958 3 15 -- -- -- -- -- 7.5 7.5 -- 250 -- -- -- 742 858 975 -- -- 0.9 -- -- -- -- 15 15 1 500 0.3 -- 80 759 875 992 P7.1 mA mA V mA mA mA mA mA mA V mV -- -- VSS1 PORT0 to PORT6*2 SOUT, SCLK BD PORT0 to PORT6 *2 PORT0 PORT0 to PORT7*2 SIN, SOUT, SCLK VI = -0 V, with pull-down resistor -- -- ADSTART = "0" (ADOUT) = 6H (ADOUT) = 5H (ADOUT) = 4H (ADOUT) = 3H (ADOUT) = 2H (ADOUT) = 1H (ADOUT) = 0H ADSTART = "1", during OUT ADSET execution -- -- -VB = Battery voltage -- RESET, TEST1 to TEST3 All input pins 1075 1092 1109 mV 1191 1208 1225 1308 1325 1342 1425 1442 1459 -- -- -- VB/2 -- -- -- -- -- -- 61 100 15 VB 100 ms Hz mV V Hz P7.3, P7.2 *1 Depends on program. (Values in the above table are applied in the case where the software duty is about 3%.) *2 PORT0 = P0.0 to P0.3, PORT1 = P1.0 to P1.3, PORT2 = P2.0 to P2.3, PORT3 = P3.0 to P3.3, PORT4 = P4.0 to P4.3, PORT5 = P5.0 to P5.3, PORT6 = P6.0 to P6.3, PORT7 = P7.0 to P7.3 6/12 Semiconductor MSM6576 ABSOLUTE MAXIMUM RATINGS 1.5 V operation Backup flag (BUF) = "1" The input of the constant voltage circuit is directly connected to the power supply (VSS1). VDD = 0 V (VSS1 = battery voltage) Parameter Power Supply Voltage Input Voltage Output Voltage Storage Temperature Symbol VSS1 VIN VOUT TSTG -- Ta = 25C Condition Rating -6.0 to +0.3 VSS1 - 0.3 to +0.3 VSS1 - 0.3 to +0.3 -55 to +150 C V Unit RECOMMENDED OPERATING CONDITIONS 1.5 V operation Backup flag (BUF) = "1" The input of the constant voltage circuit is directly connected to the power supply (VSS1). VDD = 0 V (VSS1 = battery voltage) Parameter Operating Voltage Operating Temperature Oscillation Frequency Symbol Vop Top fOSC Condition -- -- -- Range -3.5 to -0.9 -20 to +70 32.768 Unit V C kHz 7/12 Semiconductor MSM6576 ELECTRICAL CHARACTERISTICS 1.5 V operation Backup flag (BUF) = "1" The input of the constant voltage circuit is directly connected to the power supply (VSS1). (VDD = 0 V, VSS1 = -1.5 V (battery voltage) , VSS2 = -3.0 V, fOSC = 32.768 kHz, CX = 35 pF, Ta = 25C) Parameter Power Supply Current 1 Power Supply Current 2 Oscillation Start Voltage Output Current 1 Output Current 2 Input Current 1 Input Current 2 Input Leakage Current Input Current 3 Input Voltage Level Detector Off Voltage *1 *1 Symbol IDD1 IDD2 -VOSC -IOH1 IOL1 -IOH2 IOL2 IIH1 -IIH2 AIILA IIH3 -VIH -VIL -VLDoff -VLD6H -VLD5H Level Detector Detecting Voltage -VLD4H -VLD3H -VLD2H -VLD1H -VLD0H Level Detector Settling Time Level Detector Conversion Rate Comparator Offset Voltage Comparator Input Voltage Comparator Conversion Rate tSET fLD -VCMPoff -VCMPin fCMP Condition Level detector OFF Level detector ON Within 2 seconds VO = -0.5 V VO = -1.0 V VO = -0.5 V VO = -1.0 V VI = 0 V, in the input state, with pull-down resistor VI = -1.5 V, in the input state, with pull-up resistor VI = 0 V, -1.5 V, in the input state, without pull-down resistor Min. Typ. Max. Unit Applied Pin -- -- -- 150 150 20 20 3.75 3.75 -- 70 -- 1.2 0 725 841 958 1.5 13.5 -- -- -- -- -- 7.5 7.5 -- 250 -- -- -- 742 858 975 -- -- 0.9 -- -- -- -- 15 15 1 500 0.3 -- 80 759 875 992 P7.1 mA mA V mA mA mA mA mA mA V mV -- -- VSS1 PORT0 to PORT6*2 SOUT, SCLK BD PORT0 to PORT6 *2 PORT0 PORT0 to PORT7*2 SIN, SOUT, SCLK VI = 0 V, with pull-down resistor -- -- ADSTART = "0" (ADOUT) = 6H (ADOUT) = 5H (ADOUT) = 4H (ADOUT) = 3H (ADOUT) = 2H (ADOUT) = 1H (ADOUT) = 0H ADSTART = "1", during OUT ADSET execution -- -- -VB = Battery voltage -- RESET, TEST1 to TEST3 All input pins 1075 1092 1109 mV 1191 1208 1225 1308 1325 1342 1425 1442 1459 -- -- -- VB/2 -- -- -- -- -- -- 61 100 15 VB 100 ms Hz mV V Hz P7.3, P7.2 *1 Depends on program. (Values in the above table are applied in the case where the software duty is about 3%.) *2 PORT0 = P0.0 to P0.3, PORT1 = P1.0 to P1.3, PORT2 = P2.0 to P2.3, PORT3 = P3.0 to P3.3, PORT4 = P4.0 to P4.3, PORT5 = P5.0 to P5.3, PORT6 = P6.0 to P6.3, PORT7 = P7.0 to P7.3 8/12 Semiconductor MSM6576 NOTES ON USE Power Supply for 0.9 V Microcontroller Series (Backup Flag and Constant-Voltage Circuit) The 0.9 V microcontroller series has built-in constant-voltage circuit. The output of this constant-voltage circuit powers the microcontroller's internal logic circuits. Setting a backup flag (BUF) allows the input of the constant-voltage circuit to be switched to either the battery or the output generated in the voltage converter, based on the battery voltage. A battery voltage is 1.5 V. VDD (0 V) VSS1 (-1.5 V) VSS2 (-3.0 V) VSS3* (-4.5 V) Voltage converter Backup flag (BUF) Internal logic XT XTAL XTB Constant-voltage circuit VR VEE (About-1.3 V) LCD driver* *The VSS3 pin is provided for the devices that contain an LCD driver. The output (VEE) of the constant-voltage circuit is set at approximately -1.3 V. This allows the current consumed by the internal logic to be limited, irrespective of the battery voltage. However, if the input of the constant-voltage circuit is below this set value (about -1.3 V), the output (VEE) is equal to the input. The 0.9 V microcontroller can be operated even if the internal voltage (output from the constant-voltage circuit) falls to 0.9 V. Setting the backup flag allows a larger operating voltage margin despite changes in internal voltage due to noise. For example, for the 1.5 V operation, setting the backup flag to "0" supplies twice the battery voltage to the constant-voltage circuit. Thus, even if the battery voltage falls to 0.9 V, the output voltage (VEE) is maintained at -1.3 V, providing a larger margin of operating voltage of the internal logic circuits because 1.8 V is applied to the input of the constant-voltage circuit. Figures 1 and 2 show the internal status depending on the backup flag settings for the battery, as well as status features. 9/12 Semiconductor (Figure 1) 1.5 V Operation (Backup Flag = "1") VDD = 0 V VDD VB = -1.5 V Voltage converter Internal logic Internal status Operating range Current consumption 1.5 mA* MSM6576 The battery level VSS1 is applied to the input of the constant-voltage circuit. (VSS2). -0.9 to -3.5 V VSS1 VSS2 (-3.0 V) VR VEE Voltage doubler Feature When the battery level is powered down, the internal circuit is powered directly by the battery. * When the software duty is about 5% (Figure 2) 1.5 V Operation (Backup Flag = "0") VDD = 0 V VDD VB = -1.5 V Voltage converter Internal logic Internal status Operating range Current consumption A doubled level of VSS2 is applied to the input of the constant-voltage circuit. (VSS2). -0.9 to -3.5 V 3 mA* When the baftery level is powered down, a larger operating voltage margin is gained, compared to the case of Figure 1. VSS1 VSS2 (-3.0 V) VR VEE Voltage doubler Feature * When the software duty is about 5% 10/12 Semiconductor MSM6576 PACKAGE DIMENSIONS (Unit : mm) QFP44-P-910-0.80-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 0.35 TYP. Notes for Mounting the Surface Mount Type Package The SOP, QFP, TSOP, 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 for the product name, package name, pin number, package code and desired mounting conditions (reflow method, temperature and times). 11/12 Semiconductor MSM6576 (Unit : mm) QFP44-P-910-0.80-2K 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 0.41 TYP. Notes for Mounting the Surface Mount Type Package The SOP, QFP, TSOP, 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 for the product name, package name, pin number, package code and desired mounting conditions (reflow method, temperature and times). 12/12 |
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