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MB89P538-101

MB89P538-101

  • 厂商:

    FUJITSU(富士通)

  • 封装:

  • 描述:

    MB89P538-101 - 8-bit Original Microcontroller CMOS - Fujitsu Component Limited.

  • 数据手册
  • 价格&库存
MB89P538-101 数据手册
FUJITSU SEMICONDUCTOR DATA SHEET DS07-12546-1E 8-bit Original Microcontroller CMOS F2MC-8L MB89530H Series MB89537H/537HC/538H/538HC/ MB89P538/PV530 s DESCRIPTION The MB89530H series is a one-chip microcontroller featuring the F2MC-8L core supporting low-voltage and highspeed operation. Built-in peripheral functions include timers, serial interface, A/D converter, and external interrupt. This product is an ideal general-purpose one-chip microcontroller for a wide variety of applications from household to industrial equipment, as well as use in portable devices. s FEATURES • Wide range of package options • Two types of QFP packages (1 mm pitch, 0.65 mm pitch) • LQFP package (0.5 mm pitch) • SH-DIP package • Low voltage, high-speed operating capability • Minimum instruction execution time 0.32 µs (at base oscillator 12.5 MHz) • F2MC-8L CPU Core • Instruction set optimized for controller operation • Multiplication/division instructions • 16-bit calculation • Branching instructions with bit testing • Bit operation instructions, etc. • Five timer systems • 8-bit PWM timer with 2 channels (usable as either interval timer of PWM timer) • Pulse width count timer (supports continuous measurement or remote control receiving applications) • 16-bit timer counter • 21-bit time base timer • Clock prescaler (17-bit) • UART • Synchronous or asynchronous operation, switchable • 2 serial interfaces (Serial I/O) • Selection of transfer direction (specify MSB first or LSB first) for communication with a variety of devices (Continued) MB89530H Series (Continued) • 10-bit A/D converter (8 channels) • External clock input and time base timer output for startup support • Pulse generators (PPG) with 2-program capability • 6-bit PPG with selection of pulse width and pulse period • 12-bit PPG (2 channels) with selection of pulse width and pulse period • I2C interface circuits • External interrupt 1 (4 channels) • 4 independent inputs, release enabled from standby mode (includes edge detection function) • External interrupt 2 (8 channels) • 8 independent inputs, release enabled form standby mode (includes level edge detection function) • Standby modes (low power consumption modes) • Stop mode (oscillator stops, virtually no power consumed) • Sleep mode (CPU stops, power consumption reduced to one-third) • Sub clock mode • Clock mode • Watchdog timer reset • I/O ports • Maximum 53 ports • 38 general-purpose I/O ports (CMOS) • 2 general-purpose I/O ports (N-ch open drain) • 8 general-purpose output ports (N-ch open drain) • 5 general-purpose input ports (CMOS) s PACKAGES 64-pin, Plastic SH-DIP 64-pin, Plastic LQFP 64-pin, Plastic QFP (DIP-64P-M01) 64-pin, Plastic QFP (FPT-64P-M03) 64-pin, Ceramic MDIP (FPT-64P-M06) 64-pin, Ceramic MQFP (FPT-64P-M09) (MDP-64C-P02) (MQP-64C-P01) 2 MB89530H Series s PRODUCT LINEUP Part number MB89537H/537HC Parameter Type MB89538H/538HC MB89P538 One-time programmable 48 K × 8-bit (built-in ROM) (write from general purpose ERPOM writer) 2 K × 8-bit 1 MB89PV530 Evaluation 48 K × 8-bit (external ROM) *2 Mass produced (Mask ROM) 32 K × 8-bit (built-in ROM) 1 K × 8-bit 3.5 V to 5.5 V* (MB89537H/538H/537HC/538HC) Basic instructions Instruction bit length Instruction length Data bit length Minimum instruction execution time Minimum interrupt processing time 48 K × 8-bit (built-in ROM) ROM capacity RAM capacity Operating voltage 2.7 V to 5.5 V CPU functions : 136 : 8-bits : 1 bit to 3 bits : 1, 8, 16-bits : 0.32 µs / 12.5 MHz : 2.88 µs / 12.5 MHz Ports Peripheral functions Input ports : 5 (4 also usable as interrupts, 2 for sub clock) Output-only ports (N-ch open drain) : 8 (8 also usable as ADC input) I/O ports (N-ch open drain) : 2 (2 also usable as SO2/SDA or SI2/SCL) I/O ports (CMOS) : 38 (21 have no other function) Total : 53 21 bits Interrupt periods at main clock oscillation frequency of 12.5 MHz (approx. 0.655 ms, 2.621 ms, 20.97 ms, 335.5 ms) Reset period of approx. 167.8 ms to 335.6 ms at mail clock frequency of 12.5 MHz Reset period of approx. 500 ms to 1000 ms at sub clock frequency of 32.768 kHz. 8-bit interval timer operation*3 (supports square wave output, operating clock period : 1, 8, 16, 64 tinst*3) Pulse width measurement with 8-bit resolution (conversion period : 28 tinst*3 to 28 × 64 tinst*3) 2 channels (can also be used as interval timer, can also be used as ch1 output and ch2 count clock) Interval times at 17-bit sub clock base frequency of 32.768 kHz (approx. 31.25 ms, 0.25 s, 0.50 s, 1.00 s, 2.00 s, 4.00 s) Time base timer Watchdog timer PWM timer Clock prescaler (Continued) 3 MB89530H Series (Continued) Part number Parameter MB89537H/537HC MB89538H/538HC MB89P538 MB89PV530 Pulse width count timer 8-bit one-shot timer operation (supports underflow output, operating clock period : 1, 4, 32 tinst*3, external) 8-bit reload timer operation (supports square wave output, operating clock period : 1, 4, 32 tinst*3, external) 8-bit pulse width measurement operation (continuous measurement, H width measurement, L width measurement, ↑ to ↑, ↓ to ↓, H width measurement and ↑ to↑) 16-bit timer operation (operating clock period : 1 tinst*3, external) 16-bit event counter operation (select rising, falling, or both edges) 16-bit × 1 ch 8 bit length Selection of LSB first or MSB first Transfer clock (2, 8, 32 tinst*3, external) CLK synchronous/CLK asynchronous data transfer capability (8, 9 bit with parity bit, or 7,8 bit without parity bit) . Built-in baud rate generator provides selection of 14 baud rate settings. CLK synchronous/CLK asynchronous data transfer capability (4, 6, 7, 8 bit with parity bit, or 5, 7, 8, 9 bit without parity bit) . Built-in baud rate generator provides selection of 14 baud rate settings. External clock input, 2-channel 8-bit PWM timer output also available for baud rate settings. 16-bit timer/ counter Serial I/O Peripheral functions UART/SIO UART 4-channel independent. External interrupt 1 Selection of rising, falling, or both edge detection. Can be used for recovery from standby mode (edge detection also available in stop mode) External interrupt 2 6-bit PPG, 12-bit PPG I C bus interface 2 8-channel independent L level detection. Can be used for recovery from standby mode. Can generate square wave signals with programmable period. 6-bit × 1 channel or 12-bit × 2 channels. 1-channel , compatible with Intel System Administrator bus version 1.0 and Philips I2C specifications. 2-line communications (on MB89PV530/P538/537HC/538HC) 10-bit resolution × 8 channels. A/D conversion functions (conversion time : 60 tinst*3) Supports repeated calls from external clock or internal clock. Standard voltage input provided (AVR) A/D converter Standby modes Sleep mode, stop mode, sub clock mode, clock mode. (power saving modes) Process CMOS *1 : Depends on operating frequency. *2 : Using external ROM and MBM27C512. *3 : tinst represents instruction execution time. This can be selected as 1/4, 1/8, 1/16, 1/64 of the main clock cycle or 1/2 of the sub clock cycle. Note : MB89537H/538H have no built-in I2C functions. To use I2C functions, choose the MB89PV530/MB89P538/537HC/538HC. 4 MB89530H Series s MODEL DIFFERENCES AND SELECTION CONSIDERATIONS Part number Package DIP-64P-M01 FPT-64P-M03 FPT-64P-M06 FPT-64P-M09 MDP-64C-P02 MQP-64C-P01 MB89537H/537HC MB89538H/538HC O O O O X X O O O O X X MB89P538 O X O O X X MB89PV530 X X X X O O O : Model-package combination available X : Model-package combination not available Conversion sockets for pin pitch conversion (manufactured by Sunhayato) can be used. Contact : Sunhayato TEL +81-3-3984-7791 (Tokyo) s DIFFERENCES AMONG PRODUCTS 1. Memory Capacity When this product is used in a piggy-back or other evaluation configuration, it is necessary to carefully confirm the differences between the model being used and the product it is evaluating. Particular attention should be given to the following (see “ CPU CORE 1.Memory Space”) . • The program ROM area starts from address 4000H on the MB89P538 and MB89PV530 models. • Note upper limits on RAM, such as stack areas, etc. 2. Current Consumption • On the MB89PV530, the additional current consumed by the EPROM is added at the connecting socket on the back side. • When operating at low speed, the current consumption in the one-time PROM or EPROM models is greater than on the mask ROM models. However, current consumption in sleep or stop modes is identical. For details, refer to “ ELECTRICAL CHARACTERISTICS”. 3. Mask Options The options available for use, and the method of specifying options, differ according to the model. Before use, check the “ MASK OPTIONS” specification section. 4. Wild Register Functions The following table shows areas in which wild register functions can be used. Wild Register Usage Areas Part number Address space MB89PV530 MB89P538 MB89537H/537HC MB89538H/538HC 4000H to FFFFH 4000H to FFFFH 8000H to FFFFH 4000H to FFFFH 5 MB89530H Series s PIN ASSIGNMENTS (TOP VIEW) P36/WTO P37/PTO1 P40/INT20/EC P41/INT21/SCK2 P42/INT22/SO2/SDA P43/INT23/SI2/SCL P44/INT24/UCK2 P45/INT25/UO2 P46/INT26/UI2 P47/INT27/ADST P50/AN0 P51/AN1 P52/AN2 P53/AN3 P54/AN4 P55/AN5 P56/AN6 P57/AN7 AVCC AVR AVSS P60/INT10 P61/INT11 P62/INT12 P63/INT13/X0A P64/X1A RST MOD0 MOD1 X0 X1 VSS 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 *1 A15 A12 A7 A6 A5 A4 A3 A2 A1 A0 O1 O2 O3 VSS 65 66 67 68 69 70 71 72 73 74 75 76 77 78 92 91 90 89 88 87 86 85 84 83 82 81 80 79 VCC A14 A13 A8 A9 A11 OE A10 CE O8 O7 O6 O5 O4 64 63 62 61 60 59 58 57 56 55 54 53 52 51 50 49 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 VCC P35/PWC P34/PTO2 P33/SI1 (UI1) P32/SO1 (UO1) P31/SCK1 (UCK1) /LMCO P30/PPG03/MCO C/NC *2 P00 P01 P02 P03 P04 P05 P06 P07 P10 P11 P12 P13 P14 P15 P16 P17 P20/PWCK P21/PPG01 P22/PPG02 P23 P24 P25 P26 P27 (DIP-64P-M01) (MDP-64C-P02) *1 : Package top pin assignments (MB89PV530 only) Pin no. Pin name Pin no. Pin name 65 66 67 68 69 70 71 A15 A12 A7 A6 A5 A4 A3 73 74 75 76 77 78 79 A1 A0 O1 O2 O3 VSS O4 Pin no. 81 82 83 84 85 86 87 Pin name O6 O7 O8 CE A10 OE A11 A9 Pin no. 89 90 91 92 Pin name A8 A13 A14 VCC 72 A2 80 O5 88 N.C. : Internal connection only. Not for use. *2 : The function of pin 57 depends on the model. For details, see “ HANDLING DEVICES”. (Continued) 6 MB89530H Series (TOP VIEW) P45/INT25/UO2 P44/INT24/UCK2 P43/INT23/SI2/SCL P42/INT22/SO2/SDA P41/INT21/SCK2 P40/INT20/EC P37/PTO1 P36/WTO VCC P35/PWC P34/PTO2 P33/SI1 (UI1) P32/SO1 (UO1) P31/SCK1 (UCK1) /LMCO P30/PPG03/MCO C/NC∗ P46/INT26/UI2 P47/INT27/ADST P50/AN0 P51/AN1 P52/AN2 P53/AN3 P54/AN4 P55/AN5 P56/AN6 P57/AN7 AVCC AVR AVSS P60/INT10 P61/INT11 P62/INT12 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 64 63 62 61 60 59 58 57 56 55 54 53 52 51 50 49 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 P00 P01 P02 P03 P04 P05 P06 P07 P10 P11 P12 P13 P14 P15 P16 P17 * : The function of pin 49 depends on the model. For details, see “ P63/INT13/X0A P64/X1A RST MOD0 MOD1 X0 X1 VSS P27 P26 P25 P24 P23 P22/PPG02 P21/PPG01 P20/PWCK (FPT-64P-M03) (FPT-64P-M09) HANDLING DEVICES”. (Continued) 7 MB89530H Series (Continued) (TOP VIEW) P44/INT24/UCK2 P43/INT23/SI2/SCL P42/INT22/SO2/SDA P41/INT21/SCK2 P40/INT20/EC P37/PTO1 P36/WTO VCC P35/PWC P34/PTO2 P33/SI1 (UI1) P32/SO1/ (UO1) P31/SCK1 (UCK1) /LMCO P45/INT25/UO2 P46/INT26/UI2 P47/INT27/ADST P50/AN0 P51/AN1 P52/AN2 P53/AN3 P54/AN4 P55/AN5 P56/AN6 P57/AN7 AVCC AVR AVSS P60/INT10 P61/INT11 P62/INT12 P63/INT13/X0A P64/X1A 64 63 62 61 60 59 58 57 56 55 54 53 52 51 50 49 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 ∗1 84 83 82 81 80 79 78 85 86 87 88 89 90 91 92 93 77 76 75 74 73 72 71 70 69 P30/PPG03/MCO C/NC ∗2 P00 P01 P02 P03 P04 P05 P06 P07 P10 P11 P12 P13 P14 P15 P16 P17 P20/PWCK *1 : Package top pin assignments (MB89PV530 only) Pin no. Pin name Pin no. Pin name 65 66 67 68 69 70 71 72 N.C. A15 A12 A7 A6 A5 A4 A3 73 74 75 76 77 78 79 80 A2 A1 A0 N.C. O1 O2 O3 VSS RST MOD0 MOD1 X0 X1 VSS P27 P26 P25 P24 P23 P22/PPG02 P21/PPG01 20 21 22 23 24 25 26 27 28 29 30 31 32 (FPT-64P-M06) (MQP-64C-P01) 94 95 96 65 66 67 68 Pin no. 81 82 83 84 85 86 87 88 Pin name N.C. O4 O5 O6 O7 O8 CE A10 Pin no. 89 90 91 92 93 94 95 96 Pin name OE N.C. A11 A9 A8 A13 A14 VCC N.C. : Internal connection only. Not for use. *2 : The function of pin 50 depends on the model. For details, see “ 8 HANDLING DEVICES”. MB89530H Series s PIN DESCRIPTIONS Pin no. SH-DIP*1 MDIP*2 30 31 28 29 QFP*3 MQFP*4 23 24 21 22 LQFP*5 QFP*6 22 23 20 21 Pin name X0 X1 MOD0 MOD1 A I/O circuit type Function Connecting pins to crystal oscillator circuit or other oscillator circuit. The X0 pin can connect to an external clock. In that case, X1 is left open. Input pins for memory access mode setting. Connect directly to Vss. Reset I/O pin. This pin has pull-up resistance with CMOS I/O or hysteresis input. At an internal reset request, an ’L’ signal is output. An ’L’ level input initializes the internal circuits. General purpose I/O ports. General purpose I/O ports. General purpose I/O port.Resource I/O pin (hysteresis input).Hysteresis input. This pin also functions as a PWC input. General purpose I/O port.This pin also functions as the PPG01 output. General purpose I/O port.This pin also functions as the PPG02 output. General purpose I/O port. General purpose I/O port. General purpose I/O port. General purpose I/O port. General purpose I/O port. General purpose I/O port.This pin also functions as the PPG03 output. General purpose I/O port.Resource I/O pin (hysteresis input).This pin also functions as the UART/SIO clock input/output pin. General purpose I/O port.This pin also functions as the UART/SIO serial data output pin. General purpose I/O port.Resource input/output pin (hysteresis input).This pin also functions as the UART/ SIO serial data input pin. General purpose I/O port.This pin also functions as the PWM time 2 output pin. General purpose I/O port.Resource I/O pin (hysteresis input).This pin also functions as a PWC input. B 27 20 19 RST C 56 to 49 48 to 41 40 49 to 42 41 to 34 33 48 to 41 40 to 33 32 P00 to P07 P10 to P17 P20/PWCK P21/ PPG01 P22/ PPG02 P23 P24 P25 P26 P27 P30/ PPG03/ MCO P31/SCK1 (UCK1) / LMCO P32/SO1 (UO1) P33/SI1 (UI1) P34/PTO2 P35/PWC D D E 39 38 37 36 35 34 33 58 32 31 30 29 28 27 26 51 31 30 29 28 27 26 25 50 D D D D D D D D 59 52 51 E 60 53 52 D 61 54 53 E 62 63 55 56 54 55 D E (Continued) 9 MB89530H Series Pin no. SH-DIP* MDIP*2 1 2 1 QFP*3 MQFP*4 58 59 LQFP*5 QFP*6 57 58 Pin name I/O circuit type D D Function General purpose I/O port.Resource output. This pin also functions as the PWC output pin. General purpose I/O port.Resource output. This pin also functions as the PWM timer 1 output pin. General purpose I/O port.Resource I/O pin (hysteresis input)This pin also functions as an external interrupt input or 16-bit timer/counter input. General purpose I/O port.Resource I/O pin (hysteresis input)This pin also functions as an external interrupt input or SIO clock I/O pin. N-ch open drain output. Resource I/O pin (hysteresis only for INT22 input) . This pin also functions as an external interrupt input, SIO serial data output, or I2C data line. N-ch open drain output. Resource I/O pin (hysteresis only for INT23 input) . This pin also functions as an external interrupt, SIO serial data input, or I2C clock I/O pin. General purpose I/O port. Resource I/O pin (hysteresis input) . This pin also functions as an external interrupt input or UART clock I/O pin. General purpose I/O port. Resource I/O pin (hysteresis input) . This pin also functions as an external interrupt input or UART data output pin. General purpose I/O port. Resource I/O pin (hysteresis input) . This pin also functions as an external interrupt input or UART data input pin. General purpose I/O port. Resource I/O pin (hysteresis input) . This pin also functions as an external interrupt input or A/D converter clock input pin. N-ch open drain output port. This pin also functions as an A/D converter analog input pin. General purpose input port. Resource input pin (hysteresis input) . This pin also functions as an external interrupt input pin. P36/WTO P37/PTO1 P40/INT20/ EC P41/INT21/ SCK2 3 60 59 E 4 61 60 E 5 62 61 P42/INT22/ SO2/SDA G 6 63 62 P43/INT23/ SI2/SCL G 7 64 63 P44/INT24/ UCK2 E 8 1 64 P45/INT25/ UO2 E 9 2 1 P46/INT26/ UI2 E 10 3 2 P47/INT27/ ADST E 11 to 18 4 to 11 3 to 10 P50/AN0 to P57/AN7 P60/INT10 to P62/INT12 H 22 to 24 15 to 17 14 to 16 I (Continued) 10 MB89530H Series (Continued) Pin no. SH-DIP* MDIP*2 1 QFP*3 MQFP*4 LQFP*5 QFP*6 Pin name I/O circuit type Function General purpose input port. Resource input (hysteresis input) . This pin also functions as an external interrupt or sub clock pin. General purpose input port. This pin also functions as a sub clock pin. Power supply pin. Ground pin (GND) . A/D converter power supply pin. A/D converter reference voltage input pin. A/D converter power supply pin. Used at the same voltage level as the Vss supply. Capacitor connection pin for stabilizing power supply connect an external ceramic capacitor of approximately 0.1µF. If you select Yes for voltage step-down circuit stabilization time, this pin is fixed to VCC. If you select No for voltage step-down circuit stabilization time, this pin is fixed to VSS. N.C. pin 25 18 17 P63/INT13/ X0A I/A 26 64 32 19 20 21 19 57 25 12 13 14 18 56 24 11 12 13 P64/X1A VCC VSS AVCC AVR AVSS J/A      MB89537H/537HC MB89538H/538HC 57 50 49 C  MB89P538 MB89PV530 *1 : DIP-64P-M01 *2 : MDP-64C-P02 *3 : FPT-64P-M06 *4 : MQP-64C-P01 *5 : FPT-64P-M03 *6 : FPT-64P-M09 11 MB89530H Series External EPROM Socket Pin Function Descriptions (MB89PV530 only) Pin no. I/O Circuit Pin name type 1 2 MQFP* MDIP* 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92  66 67 68 69 70 71 72 73 74 75 77 78 79 80 82 83 84 85 86 87 88 89 91 92 93 94 95 96 65 76 81 90 A15 A12 A7 A6 A5 A4 A3 A2 A1 A0 O1 O2 O3 VSS O4 O5 O6 O7 O8 CE A10 OE A11 A9 A8 A13 A14 VCC Function O Address output pins. I O Data input pins Power supply pin (GND) . I Data input pins. O O O ROM chip enable pin. Outputs an “H” level signal in standby mode. Address output pin. ROM output enable pin. Outputs “L” at all times. O Address output pins. O O O EPROM power supply pin. Internally connected. These pins always left open. N.C. O *1 : MDP-64C-P02 *2 : MQP-64C-P01 12 MB89530H Series s I/O CIRCUIT TYPES Type X1 (X1A) Nch Pch Pch Nch Circuit Remarks Oscillator feedback resistance • High speed side = approx. 1 MΩ • Low speed side = approx. 10 MΩ A X0 (X0A) B • Hysteresis input • Pull-down resistance built-in to MB89535A MB89537H/537HC MB89538H/538HC R Pch • Pull-up resistance approx. 50 kΩ • Hysteresis input C Nch R Pch Pch Pull-up control resistor • CMOS I/O • Software pull-up resistance can be used. Approx. 50 kΩ D Nch R Pch Pch Pull-up control resistors • CMOS I/O • Software pull-up resistance can be used. Approx. 50 kΩ E Nch Port input Resource input (Continued) 13 MB89530H Series (Continued) Type Circuit Remarks • N-ch open drain output • Hysteresis input • CMOS input Resource input Port input • N-ch open drain output • Analog input (A/D converter) G Nch Pch H Nch Analog input • Hysteresis input • CMOS input • Software pull-up resistance can be used. Approx. 50 kΩ R Pch Pull-up control resistors Resource Port I R Pch Pull-up control resistors • CMOS input • Software pull-up resistance can be used. Approx. 50 kΩ J Port 14 MB89530H Series s HANDLING DEVICES 1.Preventing Latchup Care must be taken to ensure that maximum voltage ratings are not exceeded (to prevent latchup) . When CMOS integrated circuit devices are subjected to applied voltages higher than Vcc at input and output pins (other than medium- and high-withstand voltage pins), or to voltages lower than Vss, as well as when voltages in excess of rated levels are applied between Vcc and Vss, the phenomenon known as latchup can occur. When a latchup condition occurs, supply current can increase dramatically and may destroy semiconductor elements. In using semiconductor devices, always take sufficient care to avoid exceeding maximum ratings. Also when switching power on or off to analog systems, care must be taken that analog power supplies (AVCC, AVR) and analog input signals do not exceed the level of the digital power supply. 2.Power Supply Voltage Fluctuations Keep supply voltage levels as stable as possible. Even within the warranted operating range of the Vcc supply voltage, sudden changes in supply voltage can cause abnormal operation. As a measure for stability, it is recommended that the Vcc ripple fluctuation (peak to peak value) should be kept within 10% of the reference Vcc value on commercial power supply (50 Hz-60 Hz), and instantaneous voltage fluctuations such as at power-on and shutdown should be kept within a transient variability limit of 0.1V/ms. 3.Treatment of Unused Input Pins If unused input pins are left open, abnormal operation may result. Any unused input pins should be connected to pull-up or pull-down resistance. 4. Treatment of N.C. Pins Any pins marked ’NC’ (not connected) must be left open. 5. Treatment of Power Supply Pins on Models with Built-in A/D Converter Even when A/D converters are not in use, pins should be connected so that AVCC = VCC and AVSS = AVR = VSS. 6. Precautions for Use of External Clock Even when an external clock signal is used, an oscillator stabilization wait period is used after a power-on reset, or escape from sub clock mode or stop mode. 7. Execution of Programs on RAM Debugging of programs executed on RAM cannot be performed even when using the MB89PV530. 8.Wild Register Functions Wild registers cannot be debugged with the MB89PV530 and tools. To verify operations, actual in-device testing on the MB89P538 is advised. 15 MB89530H Series 9. Details of the C pin handling for MB89530H series MB89530H series contains the following products and the operating characteristics vary with whether they contain the internal stepdown circuit. Pin handling for the products depending on the internal voltage step-down circuit Part number Operating voltage Voltage step-down circuit Pin type MB89PV530 MB89P538 MB89537H/537HC MB89538H/538HC 2.7 V to 5.5 V 2.7 V to 5.5 V 3.5 V to 5.5 V 3.5 V to 5.5 V Not included Included Not included Included Included N.C. pin C pin C pin C pin Pin handling Not required Fixed to VCC Fixed to VSS 0.1 µF capacitor connected 0.1 µF capacitor connected The same built-in resources are used for the above product types; operating sequences after the power-on reset are different depending on whether they have the internal voltage step-down circuit. The operating sequences after the power-on reset with the different models will be described below. Operating sequences after the power-on reset with the different models Voltage step-down circuit stabilization time + oscillation stabilization time (219/FCH) Power supply (VCC) CPU operation of the product having the internal voltage stepdown circuit (MB89537H/ 537HC, MB89538H/538HC, MB89P538*) CPU operation of the product not having the internal voltage step-down circuit (MB89PV530, MB89P538*) Oscillation stabilization time (218/FCH) Start of CPU operation for the Start of CPU operation for the product not having the internal voltage product having the internal voltage step-down circuit (reset vector) step-down circuit (reset vector) FCH: Crystal oscillator frequency *: With the MB89P538, you can select the voltage step-down circuit to be included or not by introducing the C pin handling. Note: As described above, CPU starts at delayed time with the product having the internal voltage stepdown circuit compared with the product not having the internal voltage step-down circuit. This is because the time should be allowed for the stabilization time for voltage step-down circuit for normal operation. 16 MB89530H Series s ONE-TIME WRITING SPECIFICATIONS WITH PROM AND EPROM MICROCONTROLLERS The MB89P538 has a PROM mode with functions equivalent to the MBM27C1001, allowing writing with a general purpose ROM writer using a proprietary adapter. Note, however, that the use of electronic signature mode is not supported. • ROM writer adapters With some ROM writers, stability of writing performance is enhanced by placing an 0.1µF capacitor between the Vcc and Vss pins. The following table lists adapters for use with ROM writers. ROM Writer Adapters Part number MB89P538-101PF MB89P538-201PF MB89P538-101PFM MB89P538-201PFM MB89P538-101P-SH MB89P538-201P-SH Package FPT-64P-M06 FPT-64P-M09 DIP-64P-M01 Compatible adapter ROM-64QF-32DP-8LA2* ROM-64QF2-32DP-8LA ROM-64SD-32DP-8LA2* Inquiries should be addressed to Sunhayato, Ltd., : TEL +81-3-3984-7791 * : Version 3 or later should be used. • Memory map for EPROM mode The following illustration shows a memory map for EPROM mode. There are no PROM options. Normal operating mode 0000H I/O 0080H RAM 0100H 0200H 0880H General purpose register EPROM mode (corresponding addresses on EPROM writer) 0000H Prohibited Prohibited 4000H 4000H ROM FFFFH Program (EPROM) FFFFH Prohibited 1FFFFH 17 MB89530H Series • Recommended screening conditions Before one-time writing of microcontroller programs to PROM, high temperature aging is recommended as a screening process for chips before they are mounted. Program, verify High temperature aging +150 °C, 48 h Read Mount • About writing yields The nature of chips before one-time writing of microcontroller programs to PROM prevents the use of all-bit writing tests. Therefore it is not possible to guarantee writing yields of 100% in some cases. 18 MB89530H Series s EPROM WRITING TO PIGGY-BACK/EVALUATION CHIPS This section describes methods of writing to EPROM on piggy-back/evaluation chips. • EPROM model MBM27C512-20TV • Writer adapter For writing to EPROM using a ROM writer, use one of the writer adapters shown below (manufactured by Sunhayato) . Package Adapter socket model LCC-32 (rectangular) ROM-32LC-28DP-YG Inquiries should be addressed to Sunhayato, Ltd., : TEL +81-3-3984-7791 • Memory Space Normal operating mode 0000H I/O 0080H RAM 0880H (Corresponding address on ROM writer) 0000H Prohibited Prohibited 4000H 4000H PROM 48 KB EPROM FFFFH FFFFH • Writing to EPROM 1) Set up the EPROM writer for the MBM27C512. 2) Load program data to the ERPOM writer, in the area 4000H - FFFFH. 3) Use the EPROM writer to write to the area 4000H - FFFFH. 19 MB89530H Series s BLOCK DIAGRAM Sub clock P63/INT13/X0A P64/X1A CMOS I/O CMOS I/O port Port 0 Port 1 Port 2 N-ch I/O Low voltage oscillator circuit (32.786 kHz) 8 P00 ∼ P07 Clock control 8 P60/INT10 ∼ P62/INT12 Clock prescaler P10 ∼ P17 Port 6 CMOS I/O port 4 External interrupt 1 (edge) 12-bit PPG01 CMOS I/O port Main clock X0 X1 P20/PWCK P21/PPG01 P22/PPG02 P23 ∼ P27 12-bit PPG02 Internal databus CMOS I/O port Oscillator circuit Clock controller RST Reset circuit (watchdog timer) 21-bit time base timer SIO UART I2C P40/INT20/EC P41/INT21/SCK2 P42/INT22/ SO2/SDA P43/INT23/ SI2/SCL P44/INT24/UCK2 P30/PPG03/MCO P31/SCK1 (UCK1) /LMCO 6-bit PPF03 8-bit PWM timer 2 16-bit timer/ counter 1 External interrupt 2 (level) Port 4 P45/INT25/UO2 P46/INT26/UI2 P47/INT27/ADST Port 3 P32/SO1 (UO1) P33/SI1 (UI1) P34/PTO2 P35/PWC P36/WTO P37/PTO1 8-bit PWM timer 1 UART/SIO PWC CMOS I/O port Port 5 N-ch output CMOS I/O port 1KB RAM/2KB RAM F2MC-8L CPU 8 8 P50/AN0 ∼ P57/AN7 AVCC AVR AVSS 10-bit A/D converter Wild register 32KB ROM/48KB ROM Other pins MOD0, MOD1, C, VCC, VSS, C/NC 20 MB89530H Series s CPU CORE 1. Memory Space The MB89530H series has 64 KB of memory space, containing all I/O, data areas, and program areas. The I/ O area is located at the lowest addresses, with the data area placed immediately above. The data area can be partitioned into register areas, stack areas, or direct access areas depending on the application. The program area is located at the opposite end of memory, closest to the highest addresses, and the highest part of this area is assigned to the tables of interrupt and reset vectors and vector call instructions. The following diagram shows the structure of memory space in the MB89530H series. • Memory Map MB89537H/537HC 0000H I/O 0080H RAM 0100H 0200H General purpose register 0100H 0200H 0080H 0000H MB89PV530 MB89P538 MB89538H/538HC I/O RAM General purpose register 0480H Open 0C80H 0C91H 0880H 0C80H Open Wild register Open Wild register Open 0C91H 4000H 8000H ROM ROM FFC0H FFFFH FFC0H External ROM*1 Vector tables*2 Vector tables*2 FFFFH *1 : The external ROM area is on the MB89PV530 only. *2 : Vector tables (reset, interrupt, vector call instructions) 21 MB89530H Series 2. Registers The F2MC-8L series has two types of registers, dedicated-use registers within the CPU, and general-purpose registers in memory. Program counter (PC) : 16-bit length, shows the location where instructions are stored. Accumulator (A) : 16-bit length, a temporary memory register for calculation operations. The lower byte is used for 8-bit data processing instructions. Temporary accumulator (T) : 16-bit length, performs calculations with the accumulator. The lower byte is used for 8-bit data processing instructions. Index register (IX) : 16-bit length, a register for index modification. Extra pointer (EP) : 16-bit length, a pointer indicating memory addresses. Stack pointer (SP) : 16-bit length, indicates stack areas. Program status (PS) : 16-bit length, contains register pointer and condition code. 16 bits PC A T IX EP SP PS : Program counter : Accumulator : Temporary accumulator : Index register : Extra pointer : Stack pointer : Program status Initial value FFFDH Not fixed Not fixed Not fixed Not fixed Not fixed I-flag = 0, IL1, 0 = 11 Other bits not fixed In addition, the PS register can be divided so that the upper 8 bits are used as a register bank pointer (RP), and the lower 8 bits as a condition code register (CCR). (See the following illustration.) • Program status register configuration 15 PS 14 13 RP 12 11 10 9 8 7 6 I 5 IL1 4 IL0 3 N 2 Z 1 V 0 C Open Open Open H RP CCR 22 MB89530H Series The RP register shows the address of the register bank currently being used, so that the RP value and the actual address are related by the conversion rule shown in the following illustration. • General purpose register area real address conversion principle RP upper "0" "0" "0" "0" "0" "0" "0" A9 "1" A8 R4 A7 R3 A6 R2 A5 R1 A4 R0 A3 Operation code lower b2 A2 b1 A1 b0 A0 Address generated A15 A14 A13 A12 A11 A10 The CCR register has bits that show the content of results of calculations and transferred data, and bits that control CPU operation during interrupts. H-flag I-flag IL1, 0 : Set to 1 if calculations result in carry or borrow operations from bit 3 to bit 4, otherwise set to 0. This flag is used for decimal correction instructions. : This flag is set to 1 if interrupts are enabled, and 0 if interrupts are prohibited. The default value at reset is 0. : Indicates the level of the currently permitted interrupts. Only interrupt requests having a more powerful level than the value of these bits will be processed. IL1 0 0 1 1 N-flag Z-flag V-flag C-flag : : : : IL0 0 1 0 1 Interrupt level 1 2 3 Weak Strength Strong Set to 1 if the highest bit is 1 after a calculation, otherwise cleared to 0. Set to 1 if a calculation result is 0, otherwise cleared to 0. Set to 1 if a two’s complement overflow results during a calculation, otherwise cleared to 0. Set to 1 if a calculation results in a carry or borrow operation from bit 7, otherwise cleared to 0. This is also the shift-out value in a shift instruction. In addition, the following general purpose registers are available. General purpose registers: 8-bit length, used to contain data. The general purpose registers are 8-bit registers located in memory. There are eight such registers per bank, and the MB89530H series have up to 32 banks for use. The bank currently in use is indicated by the register bank pointer (RP). 23 MB89530H Series •Register bank configuration Address at this location = 0100H + 8 × (RP) R0 R1 R2 R3 R4 R5 R6 R7 32 banks Memory area 24 MB89530H Series s I/O MAP Address 00H 01H 02H 03H 04H to 06H 07H 08H 09H 0AH 0BH 0CH 0DH 0EH 0FH 10H 11H 12H 13H 14H to 21H 22H 23H 24H 25H 26H 27H 28H 29H 2AH 2BH 2CH 2DH 2EH 2FH 30H 31H 32H 33H SMC11 SRC1 SSD1 SIDR1/ SODR1 SMC12 CNTR1 CNTR2 CNTR3 COMR1 COMR2 PCR1 PCR2 RLBR SMC21 SMC22 SSD2 SIDR2/ SODR2 SRC2 SYCC STBC WDTC TBTC WPCR PDR2 DDR2 PDR3 DDR3 PDR4 DDR4 PDR5 PDR6 Standby control register Watchdog control register Time base timer control register Clock prescaler control register Port 2 data register Port 2 direction register Port 3 data register Port 3 direction register Port 4 data register Port 4 direction register Port 5 data register Port 6 data register (Reserved area) Serial mode control register 1 (UART) Serial rate control register (UART) Serial status and data register (UART) Serial input/output data register (UART) Serial mode control register 2 (UART) PWM control register 1 PWM control register 2 PWM control register 3 PWM compare register 1 PWM compare register 2 PWC pulse width control register 1 PWC pulse width control register 2 PWC reload buffer register Serial mode control register 1 (UART/SIO) Serial mode control register 2 (UART/SIO) Serial status and data register (UART/SIO) Serial data register (UART/SIO) Baud rate generator reload register R/W R/W R/W R/W R/W R/W R/W R/W W W R/W R/W R/W R/W R/W R/W R/W R/W 0 0 0 0 0 0 0 0B - - 0 1 1 0 0 0B 0 0 1 0 0 - 1XB XXXXXXXXB - - 1 0 0 0 0 1B 0 0 0 0 0 0 0 0B 0 0 0 - 0 0 0 0B - 0 0 0 - - - -B XXXXXXXXB XXXXXXXXB 0 0 0 - - 0 0 0B 0 0 0 0 0 0 0 0B XXXXXXXXB 0 0 0 0 0 0 0 0B 0 0 0 0 0 0 0 0B 0 0 0 0 1 - - -B XXXXXXXXB XXXXXXXXB Register name PDR0 DDR0 PDR1 DDR1 Register description Port 0 data register Port 0 direction register Port 1 data register Port 1 direction register (Reserved area) System clock control register R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R X -1 MM1 0 0B 0 0 0 1 0 - - -B 0 - - - XXXXB 0 0 - - - 0 0 0B 0 0 - - - 0 0 0B XXXXXXXXB 0 0 0 0 0 0 0 0B XXXXXXXXB 0 0 0 0 0 0 0 0B XXXX 1 1 XXB 0 0 0 0 - - 0 0B 11111111B XXXXXXXXB Write/Read R/W W R/W W Initial value XXXXXXXXB 0 0 0 0 0 0 0 0B XXXXXXXXB 0 0 0 0 0 0 0 0B (Continued) 25 MB89530H Series Address 34H 35H 36H 37H 38H 39H 3AH 3BH 3CH 3DH 3EH 3FH 40H 41H to 48H 49H 4AH to 4BH 4CH 4DH 4EH 4FH 50H 51H 52H 53H 54H 55H 56H 57H 58H 59H 5AH 5BH to 6FH 70H 71H 72H 73H 74H 75H 76H Register name ADC1 ADC2 ADDL ADDH PPGC2 PRL22 PRL21 PRL23 TMCR TCHR TCLR EIC1 EIC2 DDCR PPGC1 PRL12 PRL11 PRL13 IACR IBSR IBCR ICCR IADR IDAR EIE2 EIF2 RCR1 RCR2 CKR SMR SDR PURR0 PURR1 PURR2 PURR3 PURR4 Register description A/D control register 1 A/D control register 2 A/D data register low A/D data register high PPG2 control register (12-bit PPG) PPG2 reload register 2 (12-bit PPG) PPG2 reload register 1 (12-bit PPG) PPG2 reload register 3 (12-bit PPG) 16-bit timer control register 16-bit timer counter register high 16-bit timer counter register low External interrupt 1 control register 1 External interrupt 1 control register 2 (Reserved area) DDC select register (Reserved area) PPG1 control register (12-bit PPG) PPG1 reload register 2 (12-bit PPG) PPG1 reload register 1 (12-bit PPG) PPG1 reload register 3 (12-bit PPG) I C address control register I C bus status register I C bus control register I2C clock control register I C address register I C data register External interrupt 2 control register External interrupt 2 flag register 6-bit PPG control register 1 6-bit PPG control register 2 Clock output control register (Reserved area) Serial mode register (SIO) Serial data register (SIO) Port 0 pull-up resistance register Port 1 pull-up resistance register Port 2 pull-up resistance register Port 3 pull-up resistance register Port 4 pull-up resistance register 2 2 2 2 2 Write/Read R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W Initial value 0 0 0 0 0 0 - 0B - 0 0 0 0 0 0 1B XXXXXXXXB - - - - - - 0 0B 0 0 0 0 0 0 0 0B 0X0 0 0 0 0 0B XX0 0 0 0 0 0B XX0 0 0 0 0 0B - - 0 0 0 0 0 0B 0 0 0 0 0 0 0 0B 0 0 0 0 0 0 0 0B 0 0 0 0 0 0 0 0B 0 0 0 0 0 0 0 0B - - - - - - - 0B 0 0 0 0 0 0 0 0B 0X0 0 0 0 0 0B XX0 0 0 0 0 0B XX0 0 0 0 0 0B - - - - - 0 0 0B 0 0 0 0 0 0 0 0B 0 0 0 0 0 0 0 0B 0 0 0 XXXXXB - XXXXXXXB XXXXXXXXB 0 0 0 0 0 0 0 0B - - - - - - - 0B 0 0 0 0 0 0 0 0B 0X0 0 0 0 0 0B - - - - - - 0 0B 0 0 0 0 0 0 0 0B XXXXXXXXB 11111111B 11111111B 11111111B 11111111B 1111--11B (Continued) 26 MB89530H Series (Continued) Address 77H 78H 79H 7AH 7BH 7CH 7DH 7EH 7FH C80H C81H C82H C83H C84H C85H C86H C87H C88H C89H C8AH C8BH C8CH C8DH C8EH C8FH C90H C91H ILR1 ILR2 ILR3 ILR4 ITR WRARH1 WRARL1 WRDR1 WRARH2 WRARL2 WRDR2 WRARH3 WRARL3 WRDR3 WRARH4 WRARL4 WRDR4 WRARH5 WRARL5 WRDR5 WRARH6 WRARL6 WRDR6 Register name WREN WROR PURR6 Register description Wild register enable register Wild register data test register Port 6 pull-up resistance register (Reserved area) Interrupt level setting register 1 Interrupt level setting register 2 Interrupt level setting register 3 Interrupt level setting register 4 Interrupt test register Upper address setting register 1 Lower address setting register 1 Data setting register 1 Upper address setting register 2 Lower address setting register 2 Data setting register 2 Upper address setting register 3 Lower address setting register 3 Data setting register 3 Upper address setting register 4 Lower address setting register 4 Data setting register 4 Upper address setting register 5 Lower address setting register 5 Data setting register 5 Upper address setting register 6 Lower address setting register 6 Data setting register 6 W W W W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W 1 1 1 1 1 1 1 1B 1 1 1 1 1 1 1 1B 1 1 1 1 1 1 1 1B 1 1 1 1 1 1 1 1B XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX Write/Read R/W R/W R/W Initial value - - 0 0 0 0 0 0B - - 0 0 0 0 0 0B ---11111B Access prohibited XXXXXX0 0B • Description of write/read symbols : R/W : read/write enabled R : Read only W : Write only • Description of initial values : 0 : This bit initialized to “0”. 1 : This bit initialized to “1”. X : The initial value of this bit is not determined. M : The initial value of this bit is a mask option. - : This bit is not used. Note : Do not use reserved spaces. 27 MB89530H Series s ELECTRICAL CHARACTERISTICS 1. Absolute Maximum Ratings Rating Min VSS − 0.3 VSS − 0.3 VSS − 0.3 VSS − 0.3 VSS − 0.3 VSS − 0.3          −40 −55 Max VSS + 6.0 VSS + 6.0 VCC + 0.3 VSS + 6.0 VCC + 0.3 VSS + 6.0 15 4 100 40 −15 −4 −50 −20 300 +85 +150 (AVss = Vss = 0 V) Unit V V V V V V mA mA mA mA mA mA mA mA mW °C °C Average value (operating current × operating duty) Average value (operating current × operating duty) Average value (operating current × operating duty) Average value (operating current × operating duty) Remarks MB89537H/538H* MB89537HC/538HC MB89P538 MB89PV530 Other than P42, P43 P42, P43 Other than P42, P43 P42, P43 Parameter Symbol VCC, AVCC AVR Supply voltage Input voltage Output voltage “L” level maximum output current “L” level average output current “L” level maximum total output current “L” level average total output current “H” level maximum output current “H” level average output current “H” level maximum total output current “H” level average total output current Current consumption Operating temperature Storage temperature VI VO IOL IOLAV ΣIOL ΣIOLAV IOH IOHAV ΣIOH ΣIOHAV PD TA Tstg * : AVcc and Vcc are to be used at the same potential. AVR should not exceed AVcc + 0.3V. WARNING: Semiconductor devices can be permanently damaged by application of stress (voltage, current, temperature, etc.) in excess of absolute maximum ratings. Do not exceed these ratings. 28 MB89530H Series 2. Recommended Operating Conditions Value Min 3.5* VCC, AVCC 3.0 2.7* 1.5 AVR Operating temperature TA 3.5 −40 Max 5.5 5.5 5.5 5.5 AVCC +85 (AVss = Vss = 0 V) Unit V V V V V °C Remarks Range warranted for normal operation MB89537H/538H MB89537HC/ RAM status in stop mode 538HC MB89P538 MB89PV530 Parameter Symbol Supply voltage Range warranted for normal operation RAM status in stop mode * : Varies according to frequency used, and instruction cycle. See “Operating voltage vs. operating frequency” and “5. A/D Converter Electrical Characteristics”. 29 MB89530H Series Operating voltage vs. operating frequency : MB89P538/ MB89PV530 : MB89537H/ MB89538H/ MB89537HC/ MB89538HC Range of warranted analog precision : VCC = AVCC = 3.5 V to 5.5 V 5.5 5.0 Operating voltage VCC (V) 4.0 3.5 3.0 2.7 2.0 1.0 0 1.0 2.0 3.0 4.0 5.0 6.0 7.0 8.0 9.0 10.0 Operating frequency (MHz) (at instruction cycle = 4 / Fc) 11.0 12.0 12.5 4.0 2.0 0.8 0.4 0.32 Minimum instruction execution time (Instruction cycles) (µs) WARNING: The recommended operating conditions are required in order to ensure the normal operation of the semiconductor device. All of the device’s electrical characteristics are warranted when the device is operated within these ranges. Always use semiconductor devices within their recommended operating condition ranges. Operation outside these ranges may adversely affect reliability and could result in device failure. No warranty is made with respect to uses, operating conditions, or combinations not represented on the data sheet. Users considering application outside the listed conditions are advised to contact their FUJITSU representatives beforehand. 30 MB89530H Series 3. DC Characteristics (AVCC = VCC = 5.0 V, AVss = Vss = 0 V, TA = −40 °C to +85 °C) Pin name Value Condition Parameter Symbol Min  Typ  Max VCC + 0.3 Unit Remarks VIH P00 to P07, P10 to P17, P20 to P27, P30 to P37, P40 to P47, P60 to P64, SI1, SI2 RST, MOD0, MOD1, INT20 to INT27, UCK1, UI1, INT10 to INT13, SCK1, EC, PWCK, PWC, SCK2, UCK2, UI2, ADST 0.7 VCC V “H” level input voltage VIHS  0.8 VCC  VCC + 0.3 V VIHSMB SCL, SDA VIHI2C P00 to P07, P10 to P17, P20 to P27, P30 to P37, P40 to P47, P60 to P64, SI1, SI2 RST, MOD0, MOD1, INT20 to INT27, UCK1, UI1, INT10 to INT13, SCK1, EC, PWCK, PWC, SCK2, UCK2, UI2, ADST   VSS + 1.4 0.7 VCC   VSS + 5.5 VSS + 5.5 V V With SMB input buffer selected* With I2C input buffer selected* VIL  VSS − 0.3  0.3 VCC V “L” level input voltage VILS  VSS − 0.3  0.2 VCC V VILSMB SCL, SDA VILI2C Open drain output applied voltage VD1 VD2 P50 to P57 P42, P43    VSS − 0.3 VSS − 0.3 VSS − 0.3    VSS + 0.6 0.3 VCC VCC + 0.3 VSS + 5.5 V V V V With SMB input buffer selected* With I2C input buffer selected* “H” level output voltage VOH P00 to P07, P10 to P17, IOH = P20 to P24, P30 to P37, −2.0 mA P40, P41, P44 to P47 P25 to P27 IOH = −3.0 mA 4.0   V “L” level output voltage VOL P00 to P07, P10 to P17, P20 to P27, P30 to P37, IOL = P40 to P47, P50 to P57, 4.0 mA RST   0.4 V (Continued) 31 MB89530H Series (AVCC = VCC = 5.0 V, AVss = Vss = 0 V, TA = −40 °C to +85 °C) Parameter Input leak current (Hi-Z output leak current) Open drain output leak current Pull-up resistance Symbol Pin name Condition Value Min −5 Typ  Max +5 Unit Remarks ILI P00 to P07, P10 to P17, P20 to P27, P30 to P37, 0.0 V < VI < P40 to P47, P50 to P57, VCC P60 to P64 P42, P43 0.0 V < VI < VSS + 5.5 V µA With no pull-up resistance specified ILIOD   +5 µA With pull-up resistance is selected. The RST signal is excluded. RPULL P00 to P07, P10 to P17, P20 to P27, P30 to P37, VI = 0.0 V P40, P41, P44 to P47, P60 to P64, RST FCH = 10.0 MHz VCC = 5.0 V tinst = 0.4 µs FCH = 10.0 MHz VCC = 5.0 V tinst = 6.4 µs FCH = 10.0 MHz VCC = 5.0 V tinst = 0.4 µs VCC FCH = 10.0 MHz VCC = 5.0 V tinst = 6.4 µs 25             50 100 kΩ 15 6 5 1.5 5 20 10 8.5 3 7 mA MB89P538/PV530 mA MB89537H/538H MB89537HC/538HC ICC1 mA MB89P538/PV530 mA mA MB89537H/538H MB89537HC/538HC Sleep mode MB89P538/PV530 ICC2 ICCS1 2 4 Sleep mode mA MB89537H/538H MB89537HC/538HC mA Sleep mode MB89P538/PV530 Supply current ICCS2 1.5 3 1 2 Sleep mode mA MB89537H/538H MB89537HC/538HC mA µA µA µA Sub mode MB89P538/PV530 Sub mode MB89537H/538H MB89537HC/538HC Sub, sleep modes MB89P538/PV530 Sub, sleep modes MB89537H/538H MB89537HC/538HC ICCL FCL = 32.768 kHz VCC = 5.0 V 3 7 20 50 ICCLS FCL = 32.768 kHz VCC = 5.0 V 30 50 15 30 (Continued) 32 MB89530H Series (Continued) Parameter Symbol Pin name Condition FCL = 32.768 kHz VCC = 5.0 V TA = +25 °C Value Min      Typ 5 3 4 1 10 Max 15 10 6 5  Unit Remarks Clock mode, main stop Sub, stop modes A/D conversion running A/D stopped ICCT Supply current ICCH IA IAH Input capacitance CIN VCC µA µA mA µA pF AVCC Except VCC, VSS, AVCC, AVSS FCH = 10.0 MHz TA = +25 °C f = 1 MHz * : MB89PV530/P538/537HC/538HC have a built-in I2C function, and a choice of input buffers by software setting. MB89537H/538H have no built-in I2C functions, and therefore this standard does not apply. 33 MB89530H Series 4. AC Characteristics (1) Reset Timing (VCC = 5.0 V, AVss = Vss = 0 V, TA = −40 °C to +85 °C) Symbol tZLZH Condition  Value Min 48 tHCLY Max  Unit ns Remarks Parameter RST “L” pulse width Note : tHCLY is the main clock oscillator period. tZLZH RST 0.2 VCC 0.2 VCC (2) Power-on Reset Value Min 0.5 1 (AVss = Vss = 0 V, TA = −40 °C to +85 °C) Symbol tR tOFF Condition   Max 50  Unit ms ms For repeated operation Remarks Parameter Power on time Power shutoff time Note : Be sure that the power supply will come on within the selected oscillator stabilization period. Also, when varying the supply voltage during operation, it is recommended that the supply voltage be increased gradually. tR 3.5 V tOFF VCC 0.2 V 0.2 V 0.2 V 34 MB89530H Series (3) Clock Timing Standards (AVss = Vss = 0 V, TA = −40 °C to +85 °C) Parameter Clock frequency Clock cycle time Symbol FCH FCL tHCYL tLCYL PWH PWL PWHH PWLL tCR tCF Pins X0, X1 X0A, X1A X0, X1 X0A, X1A X0 X0A X0  Condition Value Min 1  80  20   Typ  32.768  30.5  15.2  Max 12.5  1000    10 Unit Remarks MHz Main clock kHz ns µs ns µs ns Sub clock Main clock Sub clock External clock External clock External clock Input clock pulse width Input clock rise, fall time • X0, X1 timing and application conditions tHCYL PWH tCR 0.8 VCC 0.8 VCC tCF PWL X0 0.2 VCC 0.2 VCC 0.2 VCC • Clock application conditions Using a crystal oscillator or ceramic oscillator X0 X1 FCH C1 C2 Using an external clock signal X0 X1 Open FCH 35 MB89530H Series • X0A, X1A timing and application conditions tLCYL PWLH tCR 0.8 VCC 0.8 VCC tCF PWLL X0A 0.2 VCC 0.2 VCC 0.2 VCC • Clock application conditions Using a crystal oscillator or ceramic oscillator X0A X1A FCL C1 C2 Using an external clock signal X0A X1A Open FCL (4) Instruction Cycle Parameter Instruction cycle (minimum instruction execution time) Symbol Rated value 4/FCH, 8/FCH, 16/FCH, 64/FCH tinst 2/FCL (AVss = Vss = 0 V, TA = −40 °C to +85 °C) Unit µs µs Remarks Operating at FCH = 12.5 MHz (4/FCH) tinst = 0.32 µs Operating at FCL = 32.768 kHz tinst = 61.036 µs 36 MB89530H Series (5) Serial I/O Timing Symbol tSCYC tSLOV tIVSH tSHIX tSHSL tSLSH tSLOV tIVSH tSHIX (VCC = 5.0 V, AVss = Vss = 0 V, TA = −40 °C to +85 °C) Pin name SCK, UCK SCK, SO, UCK, UO SI, SCK, UI, UCK SCK, SI, UCK, UI SCK, UCK SCK, SO, UCK, UO SI, SCK, UI, UCK SCK, SI, UCK, UI External clock operation Internal clock operation Condition Value Min 2 tinst −200 200 200 1 tinst 1 tinst 0 200 200 Max  + 200     200   Unit µs ns ns ns µs µs ns ns ns Remarks Parameter Serial clock cycle time SCK↓→SO Valid SI→SCK↑ SCK↑→valid SI hold time Serial clock “H” pulse width Serial clock “L” pulse width SCK↓→SO time Valid SI→SCK↑ SCK↑→ valid SI hold time Note : For tinst see “ (4) Instruction Cycle”. Internal shift clock mode tSCYC SCK UCK 0.8 V tSLOV 2.4 V 0.8 V SO UO 2.4 V 0.8 V tIVSH tSHIX 0.8 VCC 0.2 VCC SI UI 0.8 VCC 0.2 VCC External shift clock mode tSLSH tSHSL 0.8 VCC 0.2 VCC tSLOV 0.2 VCC 0.8 VCC SCK UCK SO UO 2.4 V 0.8 V tIVSH tSHIX 0.8 VCC 0.2 VCC SI UI 0.8 VCC 0.2 VCC 37 MB89530H Series (6) Peripheral Input Timing (VCC = 5.0 V, AVss = Vss = 0 V, TA = −40 °C to +85 °C) Pin name INT10 to INT13, INT20 to INT27, EC, PWC, PWCK Condition    ADST  Value Min 2 tinst 2 tinst 28 tinst 28 tinst Max     Unit µs µs µs µs Remarks Parameter Peripheral input “H” level pulse width 1 Peripheral input “L” level pulse width 1 Peripheral input “H” level pulse width 2 Peripheral input “L” level pulse width 2 Symbol tILIH1 tIHIL1 tILIH2 tIHIL2 Note : For tinst see “ (4) Instruction Cycle”. tIHIL1 0.8 VCC tILIH1 0.8 VCC EC, INT, PWC, PWCK 0.2 VCC 0.2 VCC ADST tIHIL2 0.8 VCC tILIH2 0.8 VCC 0.2 VCC 0.2 VCC 38 MB89530H Series (7) I2C Timing Pin name SCL SDA SCL SDA SCL SDA SCL SDA SCL SDA SCL SDA SCL SCL SDA SDA SCL SCL SDA SDA (VCC = 5.0 V, AVss = Vss = 0 V, TA = −40 °C to +85 °C) Symbol Condition Parameter Start condition output Stop condition output Start condition detection Stop condition detection Restart condition output Restart condition detection SCL output “L” width SCL output “H” width SDA output delay time Setup after SDA output interrupt interval SCL input “L” width SCL input “H” width SDA input setup SDA input hold Value Min 1 / 4 tinst × m × n − 20 Max 1 / 4 tinst × m × n + 20 Unit Remarks ns ns ns ns ns ns ns ns ns ns ns ns ns ns Master only Master only Master only Master only Master only tSTA tSTO tSTA tSTO tSTASU tSTASU tLOW tHIGH tDO tDOSU tLOW tHIGH tSU tHO               1 / 4 tinst × 1 / 4 tinst × (m × n + 8) − 20 (m × n + 8) + 20 1 / 4 tinst × 6 + 40 1 / 4 tinst × 6 + 40   1 / 4 tinst × 1 / 4 tinst × (m × n + 8) − 20 (m × n + 8) + 20 1 / 4 tinst × 4 + 40 1 / 4 tinst × m × n − 20  1 / 4 tinst × m × n + 20 1 / 4 tinst × 1 / 4 tinst × (m × n + 8) − 20 (m × n + 8) + 20 1 / 4 tinst × 4 − 20 1 / 4 tinst × 4 + 20 1 / 4 tinst × 4 − 20 1 / 4 tinst × 6 + 40 1 / 4 tinst × 2 + 40 40 0      Notes : • For tinst see “ (4) The Instruction Cycle”. • The value “m” in the above table is the value from the shift clock frequency setting bits (CS4CS3) in the clock control register “ICCR”. For details, refer to the register description in the hardware manual. • The value ’n’ in the above table is the value from the shift clock frequency setting bits (CS2-CS0) in the clock control register “ICCR”. For details, refer to the register description in the hardware manual. • tDOSU appears when the interrupt period is longer than the SCL “L” width. • The rated values for SDA and SCL assume a start up time of 0 ns. 39 MB89530H Series • I2C interface [Data sending (master/slave) ] tDO SDA ACK tSTASU SCL tSTA tLOW tHO 1 9 tDO tSU tSU tDOSU • I2C interface [Data receiving (master/slave) ] tSU SDA ACK tHIGH SCL 6 7 8 9 tLOW tSTO tHO tDO tDO tDOSU 40 MB89530H Series 5. A/D Converter Electrical Characteristics (1) MB89537H/538H/537HC/538HC (VCC = 3.5 V to 5.5 V, AVSS = VSS = 0 V, TA = −40 °C to +85 °C) Condition   Value Min     VOT VFST  Typ     Max 10 ±5.0 ±2.5 ±1.9 Unit bit LSB LSB LSB mV mV LSB µs µs µA V V µA µA * Remarks Parameter Resolution capability Total error Linear error Differential linear error Zero transition voltage Full scale transition voltage Inter-channel variation Conversion time Sampling time Analog input current Analog input voltage Reference voltage Reference voltage supply current Symbol Pin name AVR = AVCC AVSS − 3.5 AVSS + 0.5 AVSS + 4.5 LSB LSB LSB AVR − 6.5 AVR − 1.5 AVR + 1.5 LSB LSB LSB   60 tinst 16 tinst    400  4.0   10 AVR AVCC  5     AVSS AVSS + 3.5 A/D running A/D off    IAIN VAIN  IR IRH AVR AN0 to AN7 * : Includes sampling time Note : For tinst see “ (4) The Instruction Cycle”. 41 MB89530H Series (2) MB89P538/PV530 (VCC = 3.5 V to 5.5 V, AVSS = VSS = 0 V, TA = −40 °C to +85 °C) Symbol Pin name Parameter Resolution capability Total error Linear error Differential linear error Zero transition voltage Full scale transition voltage Inter-channel variation Conversion time Sampling time Analog input current Analog input voltage Reference voltage Reference voltage supply current Condition  Value Min     Typ     Max 10 ±3.0 ±2.5 ±1.9 Unit bit LSB LSB LSB mV mV LSB µs µs µA V V µA µA Remarks  VOT VFST  AVR = AVCC AVSS − 1.5 AVSS + 0.5 AVSS + 2.5 LSB LSB LSB AVR − 3.5 AVR − 1.5 AVR + 1.5 LSB LSB LSB   60 tinst 16 tinst    400  4.0   10 AVR AVCC  5     0 AVSS + 3.5 A/D running A/D off   AVCC = VCC  IAIN VAIN  IR IRH AVR * AN0 to AN7 * : Includes sampling time Note : For tinst see “ (4) The Instruction Cycle”. 42 MB89530H Series (3) A/D Converter Terms and Definitions • Resolution The level of analog variation that can be distinguished by the A/D converter. • Linear error (unit : LSB) The deviation between the value along a straight line connecting the zero transition point (“00 0000 0000”←→“00 0000 0001”) of a device and the full-scale transition point (“11 1111 1110”←→“11 1111 1111”) , compared with the actual conversion values obtained. • Differential linear error (Unit : LSB) The deviation from the theoretical input voltage required to produce a change of 1 LSB in output code. • Total error (Unit : LSB) The difference between theoretical conversion value and actual conversion value. Theoretical input/output characteristics 3FF 3FE VFST 3FF 3FE 1.5 LSB 3FD Total error Actual conversion characteristics (1 LSB I N + 0.5 LSB) Digital output 3FD 004 003 002 001 0.5 LSB AVSS AVR VOT 1 LSB Digital output 004 VNT 003 002 001 AVSS Actual conversion characteristics Theoretical characteristics AVR Analog input VFST − VOT 1022 Analog input VNT − {1 LSB×N + 0.5 LSB} 1 LSB 1 LSB = (V) Total error in digital output N = (Continued) 43 MB89530H Series (Continued) Zero transition error 004 Full-scale transition error Theoretical characteristics 3FF Actual conversion characteristics Digital output 003 Actual conversion characteristics Digital output 3FE 002 001 Actual conversion characteristics VOT (actual measurement value) 3FD VFST (actual measurement value) Actual conversion characteristics 3FC AVSS Analog input Analog input AVR Linear error 3FF 3FE Differential linear error Theoretical characteristics Actual conversion V (N + 1) T characteristics Actual conversion characteristics (1 LSB × N + VOT) N+1 Digital output VFST 004 003 002 001 Digital output 3FD (actual VNT measurement value) Actual conversion characteristics Theoretical characteristics VOT (actual measurement value) N N−1 VNT N−2 AVSS Actual conversion characteristics AVSS Analog input AVR Analog input AVR Analog input linear = VNT − {1 LSB × N + VOT} 1 LSB error in digital output N Differential linear = V (N + 1) T − VNT −1 1 LSB error in digital output N 44 MB89530H Series (4) Precautionary Information • Input Impedance of Analog Input Pins The A/D converter of MB89530H has a sample & hold circuit as shown below, which uses a sample-and-hold capacitor to obtain the voltage at the analog input pin for 8 instruction cycles following the start of A/D conversion. For this reason if the external circuits providing the analog input signal have high output impedance, the analog input voltage may not stabilize within the analog input sampling time. It is therefore recommended that the output impedance of external circuits be reduced to 10 kΩ or less. • MB89537H/537HC/538H/538HC Analog Input Equivalent Circuit Sample-and-hold circuit C = 31 pF Analog input pin R = 3.2 kΩ Comparator Closes 8 instruction cycles after the start of A/D conversion Analog channel selector If analog input impedance is 10 kΩ or more, the use of a capacitor of approximately 0.1 µF is recommended. • MB89P538 and MB89PV530 Analog Input Equivalent Circuit Sample-and-hold circuit C = 64 pF Analog input pin R = 3 kΩ Comparator Closes 8 instruction cycles after the start of A/D conversion Analog channel selector If analog input impedance is 10 kΩ or more, the use of a capacitor of approximately 0.1 µF is recommended. • About error The smaller the absolute value |AVR - AVss| is, the greater the relative error becomes. 45 MB89530H Series s EXAMPLE CHARACTERISTICS (1) Power Supply Current (External Clock) MB89538H ICC1 vs. VCC 8 (TA = 25 ˚C) 6 12.5 MHz MB89538H ICCS1 vs. VCC 3 (TA = 25 ˚C) 2.5 10 MHz 12.5 MHz ICCS1 (mA) 10 MHz 8 MHz 2 1.5 ICC1 (mA) 8 MHz 5 MHz 4 5 MHz 1 2 MHz 2 2 MHz 1 MHz 0.5 0 1 MHz 0 2 3 4 VCC (V) 5 6 7 2 3 4 VCC (V) 5 6 7 (2) “H” Level Input Voltage / “L”Level Input Voltage (CMOS Input) MB89538H VIN vs. VCC 4 (TA = 25 ˚C) 3 VIN (V) 2 1 0 2 3 4 VCC (V) 5 6 7 (3) “H”Level Input Voltage / “L”Level Input Voltage (Hysteresis Input) MB89538H VIN vs. VCC 4 (TA = 25 ˚C) VIH 3 VIN (V) VIL 2 1 0 2 3 4 VCC (V) 5 6 7 (Continued) 46 MB89530H Series (Continued) (4) AD Converter Characteristic Example MB89538H Linearity Error 3 2.5 2 1.5 (VCC = AVR = 5 V, Fc = 10 MHz) Error (LSB) 1 0.5 0 -0.5 -1 -1.5 -2 -2.5 -3 0 128 256 384 512 640 768 896 1024 Conversion characteristic MB89538H Differential Linearity Error 2.5 2.5 2 1.5 (VCC = AVR = 5 V, Fc = 10 MHz) Error (LSB) 1 0.5 0 -0.5 -1 -1.5 -2 -2.5 0 128 256 384 512 640 768 896 1024 Conversion characteristic MB89538H Total Error 4 3 (VCC = AVR = 3 V, Fc = 10 MHz) 2 Error (LSB) 1 0 -1 -2 -3 -4 0 128 256 384 512 640 768 896 1024 Conversion characteristic 47 MB89530H Series s MASK OPTIONS Part number No Method of specification Main clock Select oscillator stabilization wait period (FCH* = 10 MHz) approx.214/FCH* (approx.1.6 ms) approx.217/FCH* (approx.13.1 ms) approx.218/FCH* (approx.26.2 ms) Clock mode selection • 2-system clock mode • 1-system clock mode MB89537H MB89537HC MB89538H MB89538HC Specify at time of mask order MB89P538-101 MB89P538-201 Setting not possible MB89PV530 Setting not possible 1 Selection available 218/FCH* (approx. 26.2 ms) 218/FCH* (approx. 26.2 ms) 2 Selection available • 101 : 1-system clock mode 2-system clock mode • 201 : 2-system clock mode * : FCH : Main clock frequency 48 MB89530H Series s ORDERING INFORMATION Part number MB89537HP MB89537HCP MB89538HP MB89538HCP MB89P538P-101 MB89P538P-201 MB89537HPF MB89537HCPF MB89538HPF MB89538HCPF MB89P538PF-101 MB89P538PF-201 MB89537HPFM MB89537HCPFM MB89538HPFM MB89538HCPFM MB89P538PFM-101 MB89P538PFM-201 MB89537HPFV MB89537HCPFV MB89538HPFV MB89538HCPFV MB89PV530C MB89PV530CF Package Remarks DIP-64P-M01 MB89537HP and MB89538HP do not have I2C functions. FPT-64P-M06 MB89537HPF and MB89538HPF do not have I2C functions. FPT-64P-M09 MB89537HPFM and MB89538HPFM do not have I2C functions. FPT-64P-M03 MB89537HPFV and MB89538HPFV do not have I2C functions. MDP-64C-P02 MQP-64C-P01 49 MB89530H Series s PACKAGE DIMENSIONS 64-pin plasic SH-DIP (DIP-64P-M01) 58.00 –0.55 2.283 –.022 +0.22 +.009 Note : Pins width and pins thickness include plating thickness. INDEX-1 17.00±0.25 (.669±.010) INDEX-2 4.95 –0.20 .195 –.008 +0.70 +.028 0.70 –0.19 .028 –.007 +0.50 +.020 3.30 –0.30 .130 +0.20 +.008 –.012 +0.40 –0.20 +.016 –.008 0.27±0.10 (.011±.004) 1.378 .0543 1.778(.0700) 0.47±0.10 (.019±.004) 0.25(.010) M 19.05(.750) 0~15° 1.00 –0 +0.50 +.020 .039 –.0 C 2001 FUJITSU LIMITED D64001S-c-4-5 Dimensions in mm (inches) (Continued) 50 MB89530H Series 64-pin, Plastic LQFP (FPT-64P-M03) 12.00±0.20(.472±.008)SQ 10.00±0.10(.394±.004)SQ 48 33 Note : Pins width and pins thickness include plating thickness. 0.145±0.055 (.006±.002) 49 32 Details of "A" part 0.08(.003) 1.50 –0.10 .059 –.004 +0.20 +.008 (Mounting height) INDEX 64 17 0°~8° "A" 0.50±0.20 (.020±.008) 0.60±0.15 (.024±.006) 0.10±0.10 (.004±.004) (Stand off) 0.25(.010) LEAD No. 1 16 0.50(.020) 0.20±0.05 (.008±.002) 0.08(.003) M C 2000 FUJITSU LIMITED F64009S-c-4-7 Dimensions in mm (inches) (Continued) 51 MB89530H Series 64-pin, Plastic QFP (FPT-64P-M06) 24.70±0.40(.972±.016) 20.00±0.20(.787±.008) 51 33 Note : Pins width and pins thickness include plating thickness. 0.17±0.06 (.007±.002) 52 32 18.70±0.40 (.736±.016) 14.00±0.20 (.551±.008) INDEX Details of "A" part 3.00 –0.20 .118 –.008 20 +0.35 +.014 (Mounting height) 64 0~8° 1 19 1.00(.039) 0.42±0.08 (.017±.003) 0.20(.008) M 0.25 –0.20 1.20±0.20 (.047±.008) +0.15 +.006 .010 –.008 (Stand off) "A" 0.10(.004) C 2001 FUJITSU LIMITED F64013S-c-4-4 Dimensions in mm (inches) (Continued) 52 MB89530H Series 64-pin, Plastic QFP (FPT-64P-M09) 14.00±0.20(.551±.008)SQ 12.00±0.10(.472±.004)SQ 48 33 Note : Pins width and pins thickness include plating thickness. 0.145±0.055 (.0057±.0022) 49 32 0.10(.004) Details of "A" part 1.50 –0.10 .059 –.004 +0.20 +.008 (Mounting height) 0.25(.010) INDEX 0~8° 64 17 1 16 "A" 0.65(.026) 0.32±0.05 (.013±.002) 0.50±0.20 (.020±.008) 0.60±0.15 (.024±.006) 0.10±0.10 (.004±.004) (Stand off) 0.13(.005) M C 2001 FUJITSU LIMITED F64018S-c-2-4 Dimensions in mm (inches) (Continued) 53 MB89530H Series 64-pin, Ceramic MDIP (MDP-64C-P02) 56.90±0.64 (2.240±.025) 0°~9° 15.24(.600) TYP 18.75±0.30 (.738±.012) 19.05±0.30 (.750±.012) INDEX AREA 2.54±0.25 (.100±.010) 33.02(1.300)REF 0.25±0.05 (.010±.002) 10.16(.400)MAX 1.27±0.25 (.050±.010) 1.778±0.25 (.070±.010) 0.46 –0.08 +.005 .018 –.003 55.12(2.170)REF +0.13 0.90±0.13 (.035±.005) 3.43±0.38 (.135±.015) C 1994 FUJITSU LIMITED M64002SC-1-4 Dimensions in mm (inches) (Continued) 54 MB89530H Series (Continued) 64-pin, Ceramic MQFP (MQP-64C-P01) 18.70(.736)TYP 16.30±0.33 (.642±.013) 15.58±0.20 (.613±.008) 12.00(.472)TYP 1.20 –0.20 +.016 .047 –.008 +0.40 INDEX AREA 1.00±0.25 (.039±.010) 1.00±0.25 (.039±.010) 1.27±0.13 (.050±.005) 22.30±0.33 (.878±.013) 24.70(.972) TYP 0.30(.012) TYP 18.12±0.20 12.02(.473) (.713±.008) TYP 10.16(.400) 14.22(.560) TYP TYP 18.00(.709) TYP 1.27±0.13 (.050±.005) 0.30(.012)TYP 7.62(.300)TYP 9.48(.373)TYP 11.68(.460)TYP 0.40±0.10 (.016±.004) 0.40±0.10 (.016±.004) 1.20 –0.20 +.016 .047 –.008 +0.40 0.50(.020)TYP 10.82(.426) 0.15±0.05 MAX (.006±.002) C 1994 FUJITSU LIMITED M64004SC-1-3 Dimensions in mm (inches) 55 MB89530H Series FUJITSU LIMITED All Rights Reserved. The contents of this document are subject to change without notice. Customers are advised to consult with FUJITSU sales representatives before ordering. The information and circuit diagrams in this document are presented as examples of semiconductor device applications, and are not intended to be incorporated in devices for actual use. Also, FUJITSU is unable to assume responsibility for infringement of any patent rights or other rights of third parties arising from the use of this information or circuit diagrams. The products described in this document are designed, developed and manufactured as contemplated for general use, including without limitation, ordinary industrial use, general office use, personal use, and household use, but are not designed, developed and manufactured as contemplated (1) for use accompanying fatal risks or dangers that, unless extremely high safety is secured, could have a serious effect to the public, and could lead directly to death, personal injury, severe physical damage or other loss (i.e., nuclear reaction control in nuclear facility, aircraft flight control, air traffic control, mass transport control, medical life support system, missile launch control in weapon system), or (2) for use requiring extremely high reliability (i.e., submersible repeater and artificial satellite). Please note that Fujitsu will not be liable against you and/or any third party for any claims or damages arising in connection with above-mentioned uses of the products. Any semiconductor devices have an inherent chance of failure. You must protect against injury, damage or loss from such failures by incorporating safety design measures into your facility and equipment such as redundancy, fire protection, and prevention of over-current levels and other abnormal operating conditions. If any products described in this document represent goods or technologies subject to certain restrictions on export under the Foreign Exchange and Foreign Trade Law of Japan, the prior authorization by Japanese government will be required for export of those products from Japan. F0201 © FUJITSU LIMITED Printed in Japan
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