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| MYSON TECHNOLOGY FEATURES * * * Low power and low voltage operation. Powerful instruction set (150 instructions). Memory capacity. - Instruction ROM capacity 4096 x 16 bits. - Index ROM capacity 256 x 8 bits. - Internal RAM capacity 384 or 256 x 4 bits. Input/Output ports of up to 20 pins. 8-level subroutine nesting. Built-in LCD driver, 8 x 42 = 336 segments. Built-in EL driver, frequency or melody generator. Built-in Resistance-to-Frequency Converter. Built-in 2-channel 6/8-bit PWM output. Built-in key strobe function.(Shared with segment pin) Built-in voltage doubler, halver, tripler quadrupler charge pump circuit. Two 6-bit programmable timers with programmable clock source. Watchdog timer. 4 external & 3 internal interrupt resources. - External: INT, RFC, IOA/IOC/S port, keystrobe. - Internal: TM1, TM2, Predivider. Dual clock operation. HALT and STOP function. MTU429B (Preliminary) GENERAL DESCRIPTION The MTU429B is an embedded high performance 4-bit microcomputer with an on-chip LCD driver. It contains all the necessary functions in a single chip: 4-bit parallel processing ALU, ROM, RAM, I/O ports, timer, clock generator, dual clock, RFC, EL-light, LCD driver, look-up table, watchdog timer and keyboard scanning. The instruction set includes not only 4-bit operation and manipulation instructions but also various conditional branch instructions and LCD driver data transfer instructions which are powerful and easy to use. The Halt function stops any internal operations other than the oscillator, divider and LCD driver in order to minimize the power dissipation. The Stop function stops all the clocks in the chip. 4-Bit Micro-Controller with LCD Driver * * * * * * * * * * * * * BLOCK DIAGRAM SEG35~SEG38 SEG31~SEG34 SEG39~SEG42 SEG27~SEG30 COM1~8 ... IOA PORT /RFC IOB PORT /EL, BZ IOC PORT /KEY IN IOD PORT /PWM SEG1~SEG26 ................... LCD DRIVER SEGMENT PLA VDD1~4 FREQUENCY GENERATOR TABLE ROM 256 X 8 INDEX SRAM 256 X 4 ALU SRAM 128 X 4 CUP1 CUP2 CUP3 PREDIVIDER 2 X 6 BITS PRESET TIMER 8-LEVEL STACK INSTRUCTION DECODER WATCHDOG TIMER OSCILLATOR CONTROL CIRCUIT 12-BIT PROGRAM COUNTER MASK ROM 4096 X 16 XTIN CFIN XTOUT CFOUT PRESET INT S1~S4 This datasheet contains new product information. Myson Technology reserves the rights to modify the product specification without notice. No liability is assumed as a result of the use of this procuts. No rights under any patent accompany the sales of the product. 1/20 MTU429B Revision 3.0 28/Oct/1999 MYSON TECHNOLOGY 1.0 PAD DIAGRAM Chip size : 2620 x 2050 m Pad size : 100 x 100 m Pad window : 90 x 90 m Pad pitch : min. 120 m MTU429B (Preliminary) VDD2 VDD1 S4 S3 S2 S1 INT RESET TESTA BAK XTOUT XTIN CFOUT CFIN VDD3 VDD4 CUP1 CUP2 CUP3 COM1 COM2 COM3 COM4 SEG1 SEG2 SEG3 SEG4 SEG5 SEG6 SEG7 SEG8 SEG9 SEG10 KO1 / SEG11 KO2 / SEG12 70 10 1 20 60 ROM GND COM8 COM7 COM6 COM5 SEG42 / IOC4 / KI4 SEG41 / IOC3 / KI3 SEG40 / IOC2 / KI2 SEG39 / IOC1 / KI1 SEG38 / IOA4 / RH SEG37 / IOA3 / RT SEG36 / IOA2 / RR SEG35 / IOA1 / CX SEG34 / IOB4 / BZ SEG33 / IOB3 / BZB SEG32 / IOB2 / ELP SEG31 / IOB1 / ELC SEG30 / IOD4 / PWM2 SEG29 / IOD3 / PWM1 SEG28 / IOD2 SEG27 / IOD1 30 C M 40 50 KO3 / SEG13 KO4 / SEG14 KO5 / SEG15 KO6 / SEG16 KO7 / SEG17 KO8 / SEG18 KO9 / SEG19 KO10 / SEG20 KO11 / SEG21 KO12 / SEG22 KO13 / SEG23 KO14 / SEG24 KO15 / SEG25 KO16 / SEG26 Note: The substrate of die must connect to GND. 2/20 MTU429B Revision 3.0 28/Oct/1999 MYSON TECHNOLOGY 2.0 PAD ASSIGNMENT Pad No. 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 33 34 35 Pad Name CFIN CFOUT XTIN XTOUT BAK TESTA RESET INT S1 S2 S3 S4 VDD1 VDD2 VDD3 VDD4 CUP1 CUP2 CUP3 COM1 COM2 COM3 COM4 SEG1 SEG2 SEG3 SEG4 SEG5 SEG6 SEG7 SEG8 SEG9 SEG10 SEG11/KO1 SEG12/KO2 Coordinate X 1971.50 1785.25 1665.25 1545.25 1425.25 1305.25 1185.25 1065.25 945.25 825.25 705.25 585.25 465.25 345.25 225.25 75.25 75.25 75.25 75.25 75.25 75.25 75.25 75.25 75.25 75.25 75.25 75.25 75.25 75.25 75.25 75.25 75.25 75.25 75.25 75.25 Y 2544.50 2544.50 2544.50 2544.50 2544.50 2544.50 2544.50 2544.50 2544.50 2544.50 2544.50 2544.50 2544.50 2544.50 2544.50 2544.50 2394.50 2274.50 2154.50 2034.50 1914.50 1785.25 1665.25 1545.25 1425.25 1305.25 1185.25 1065.25 945.25 825.25 705.25 585.25 465.25 345.25 225.25 Pad No. 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 Pad Name SEG13/KO3 SEG14/KO4 SEG15/KO5 SEG16/KO6 SEG17/KO7 SEG18/KO8 SEG19/KO9 SEG20/KO10 SEG21/KO11 SEG22/KO12 SEG23/KO13 SEG24/KO14 SEG25/KO15 SEG26/KO16 SEG27/IOD1 SEG28/IOD2 SEG29/IOD3/PWM1 SEG30/IOD4/PWM2 SEG31/IOB1/ELC SEG32/IOB2/ELP SEG33/IOB3/BZB SEG34/IOB4/BZ SEG35/IOA1/CX SEG36/IOA2/RR SEG37/IOA3/RT SEG38/IOA4/RH SEG39/IOC1/KI1 SEG40/IOC2/KI2 SEG41/IOC3/KI3 SEG42/IOC4/KI4 COM5 COM6 COM7 COM8 GND MTU429B (Preliminary) Coordinate X 75.25 225.25 345.25 465.25 585.25 705.25 825.25 945.25 1065.25 1185.25 1305.25 1425.25 1545.25 1665.25 1785.25 1971.50 1971.50 1971.50 1971.50 1971.50 1971.50 1971.50 1971.50 1971.50 1971.50 1971.50 1971.50 1971.50 1971.50 1971.50 1971.50 1971.50 1971.50 1971.50 1971.50 Y 75.25 75.25 75.25 75.25 75.25 75.25 75.25 75.25 75.25 75.25 75.25 75.25 75.25 75.25 75.25 75.25 225.25 345.25 465.25 585.25 705.25 825.25 945.25 1065.25 1185.25 1305.25 1425.25 1545.25 1665.25 1785.25 1905.25 2034.50 2154.50 2274.50 2394.50 3/20 MTU429B Revision 3.0 28/Oct/1999 MYSON TECHNOLOGY 3.0 PAD DESCRIPTIONS Name BAK VDD1, 2, 3, 4 RESET INT TESTA CUP1, 2, 3 I I I O I/O Description Positive backup voltage. In Li mode, connects a 0.1u capacitance to GND. LCD drive voltage and positive supply voltage. While in Ag mode, connects +1.5V to VDD1. While in Li/ExtV mode, connects +3.0V to VDD2. Input pin for LSI reset signal. With Internal pull-down resistor. MTU429B (Preliminary) Input pin for external INT request signal. Falling edge or rising edge triggered by mask option. Internal pull-down or pull-up resistor or floatting to be selected by mask option. Test signal input pin, internal pull-down resistor. Switching pins for supplying the LCD driving voltage to the VDD1, 2, 3, 4 pins. Connects the CUP1, CUP2 and CUP3 pins with a nonpolarized electronic capacitor if 1/ 2, 1/3 or 1/4 bias mode has been selected. In the STATIC mode, these pins should be open. Time based counter frequency (Clock specified. LCD alternating frequency. Alarm signal frequency.) or system clock oscillation. 32KHz crystal oscillator. Oscillation stops at the execution of STOP instruction. System clock oscillation. Connected with ceramic resonator. Connected with RC oscillation circuit. Oscillation stops at the execution of STOP or SLOW instruction. Output pins for supplying voltage to drive the common pins of the LCD panel. Output pins for LCD panel segment. Output pins for LCD panel segment. Key strobe function, share pins as key scan output. Output pins for LCD panel segment. Input/Output port A, can use software to define the internal pull-low resistor and chattering clock in order to reduce input bounce and generate an interrupt. This port shares pins with SEG35~38 and is set by mask option. This port also shares pins with CC, RR, RT and RH, and is set by mask option. Input/Output port B. IOB port shares pins with SEG31~34, and is set by mask option. This port also shares pins with ELC, ELP, BZB and BZ, and is set by mask option. Input/Output port C, can use software to define internal pull-low / low-level hold resistor and chattering clock in order to reduce input bounce and generate an interrupt or key_board scanning function with ELC, ELP, BZB and BZ, and is set by mask option. Input/Output port D. This port shares pins with SEG27~30 and is set by mask option. IOD3, 4 shares pins with PWM1, 2 and is set by mask option. Input ports by mask option to internal pull-low/low-level hold resistor and chattering clock in order to reduce input bounce and generate an interrupt or Halt or stop Release. 4/20 MTU429B Revision 3.0 28/Oct/1999 XTIN XTOUT I O CFIN CFOUT COM1~8 SEG1~10 SEG11~26 / KO1~16 SEG27~42 IOA1~4 I O O O O O I/O IOB1~4 I/O IOC1~4 I/O IOD1~4 I/O S1~4 I MYSON TECHNOLOGY Name KI1~4 RFC CC RR RT RH EL ELC ELP I/O I I O O O O O O O O Description MTU429B (Preliminary) Key scan input, this port shares pins with IOC1~4 and is set by mask option. 1 input pin and 3 output pins for RFC application. This port shares pins with SEG35~38 and is set by mask option. This port shares pins with IOA1~4 and is set by mask option. Output port for EL-light. This port shares pins with SEG31, 32 and is set by mask option. This port shares pins with IOB1, 2 and is set by mask option. Output port for alarm, frequency or melody generator. This port shares pins with IOB3, 4 and is set by mask option. 6/8-bit PWM output; set by mask option. Negative supply voltage. ALM BZB BZ PWM1, 2 GND 4.0 FUNCTIONAL DESCRIPTION 4.1 SRAM The 256 x 4 bits index SRAM and 128 x 4 bits data SRAM are 2 separate regions. 4.2 Index ROM The 256 x 8 bits index ROM can be used as a 4-bit mode or an 8-bit mode. 4.3 I/O Ports The IOA port can be selected by software separately as input or output, and with/without internal pull-low and different chattering clocks in order for HALT release/ interrupt trigger to reduce the bounce of key_scan: PH6: 512Hz PH8:128Hz PH10: 32Hz The pull-low of the IOA will be masked off for those pins defined as output pins. The IOA port can be used as a pseudo serial output port. The IOB port can be selected by software separately as input or output. The IOC port can be selected by software separately as input or output, and with/without internal pull-low and different chattering clocks in order for HALT release/ interrupt trigger to reduce the bounce of key_scan. The IOD port can be selected by software separately as input or output. The IOD port can be used as a pseudo serial output port. The initial state of all I/O ports is standard input state and IOA, C have pull-low device. Before setting some pins from input to output, you can execute the output function to ensure their output value. The S ports are input pins that contain pull_low. The L_L_H resistor can be selected by mask option and different chattering clocks in the same manner as the IOA, C ports. 4.4 Resistor-to-Frequency Converter We use an RC oscillation circuit and a 16-bit counter to calculate the relative resistance of temperature and humidity sensor. The diagram is shown as Figure 1. There are two types of methodology for measuring the input frequency: first, set FIN (i.e. CX) as the clock input, using timer 2 as interval control or using software to directly control the interval. Second, if the FIN (CX) frequency is too low, either because of a poor resolution for a fixed interval or a longer interval for better resolution but with a longer read-out rate (for example: 10 seconds per read-out), you can switch the measure mode in order to set FIN (CX) as interval control (it will enable the counter from first FIN rising edge to the next 5/20 MTU429B Revision 3.0 28/Oct/1999 MYSON TECHNOLOGY MTU429B (Preliminary) rising edge, then will generate an interrupt) and use FREQ (internal frequency generator output) as clock input, hence you can count the interval of CX. To measure the resistor value of the temperature and humidity sensor, we must first measure the frequency of Rref, then the frequency of sensor. Here the Fref = K / Rref * CX and Fsensor = K / Rsensor * CX, hence Rsensor = Rref * Freq/ Fsensor. Where K is a coefficient for RC-oscillation and will bw a constant in a short time period. ELP RTP RT ENX EHM RH TMS RHM Timer & R/F Controller PH9 FIN ERR Freq Freq CL CL LD LD MRF Rref RR ENX CX CX FIN 16-Bit Counter 4-Bit Data Bus FIGURE 1. R to F Converter Diagram 4.5 Key_board Scanning Function SEG11~26 shares the key_board scanning output, the output of the key_board scanning is a P open-drain to VDDO (positive power supply) and all other SEGs and COMs are in Hi-z state during this period. This will minimize the effect of the LCD output. The segment 11-26 also could be used as keyscan output and LCD still could be displayed with only slightly affected. SPK 00b5 b4 b3 b2 b1 b0. b5: 1 will disable key-scan output. b4: 1 will set all keyscan output as high, if b5=0. b3~b0: will set the corresponding segment output as 1, if b5=0 and b4=0. During power on, LCD off, STOP condition. All the common & segment output will be the chips supply power. 4.6 EL-Light Set the ELC and ELP clock and duty cycle by ELC X instruction, then turn on and off the ELC and ELP output by SF X and RF X instruction. With external transistor, diode, inductor and resistor, we can pump the ELpanel to AC 100~250V. While the light is turned on, the ELC will turn on before the ELP, but when the light is turned off, the ELP and ELC will turn off after the next falling edge of the ELC to make sure no voltage is left on the EL- panel. 4.7 Timer The 6-bit programmable timer can select PH3/PH9/PH15/FREQ (timer 2 can also select PH5/PH7/PH11/ PH13 by TM2X instruction) as the clock source. When it underflows, the HALT release signal is generated. 6/20 MTU429B Revision 3.0 28/Oct/1999 MYSON TECHNOLOGY D1 L1 Q1 MTU429B (Preliminary) R1 Q2 ELP R2 EL-plane ELC LIT ELP ELC 4.8 Predivider The predivider is a 15-stage counter that uses PH0 as the clock source. The output of T-F/F is changed when the input signal is changed from H to L. PH11~15 are reset to L when PLC 100H instruction is executed, or power-on or external reset is used. When PH14 is changed from H to L, the HALT release signal is generated. 4.9 Alarm/Frequency/Melody There is an 8-bit programmable counter and an 8-bit envelope control for alarm, frequency or melody output from BZ/BZB. The frequency counter can use software to select 1/2 duty, 1/3 duty or 1/4 duty drive mode. FREQ 1/2 DUTY FREQ 1/3 DUTY FREQ 1/4 DUTY FREQ 4.10 INT Function The INT pin can be selected by mask option as pull-high/pull-low or none, and rising edge/falling edge trigger. 4.11 Watchdog Timer The watchdog timer automatically generates a device reset when it overflows. The interval of overflow is 8/64/ 512 x PH10 (set by mask option). You can use software to enable and disable this function. The watchdog enable flag will be disabled by power-on reset or reset-pin reset condition, but can not be disabled by watchdog reset itself. 4.12 HALT Function The HALT instruction will disable all clocks except the predivider, timer, frequency counter, PWM, EL-light generator and chattering clock to minimize the operating current. 4.13 STOP Function The STOP instruction will disable all clocks to minimize the standby current, so only two external factors (INT, IOA/IOC/S port, keyscan) can release the STOP condition. 7/20 MTU429B Revision 3.0 28/Oct/1999 MYSON TECHNOLOGY 5.0 BSOLUTE MAXIMUM RATINGS at Ta=0 to 70 oC, GND=0V Name Symbol VDD1 VDD2 VDD3 VDD4 Vin Vout1 Vout2 Topq Tstg MTU429B (Preliminary) Range -0.3 to 5.5 -0.3 to 5.5 -0.3 to 8.5 -0.3 to 8.5 -0.3 to VDD 1/2 +0.3 -0.3 to VDD1/2 + 0.3 -0.3 to VDD3 + 0.3 0 to +70 -25 to +125 Unit V V V V V V V o o Maximum Supply Voltage Maximum Input Voltage Maximum Output Voltage Maximum Operating Temperature Maximum Storage Temperature C C 6.0 ALLOWABLE OPERATING CONDITIONS at Ta=0 to 70 oC, GND=0V Name Symb. VDD1 VDD2 VDD3 VDD4 VDDB VDDB VDD1 VDD2 Vih1 Vil1 Vih2 Vil2 Vih3 Vil3 Vih4 Vil4 Vih5 Vil5 Vih6 Vil6 Fopg1 Fopg2 Fopg3 Condition Min. 1.2 2.4 2.4 2.4 1.3 1.2 1.2 2.4 VDD1-0.7 -0.7 VDD2-0.7 -0.7 0.8 x VDD1 0 0.8 x VDD2 0 0.8 x VDD2 0 0.8 x VDDO 0 32 32 1000 Max. 5.25 5.25 8.0 8.0 Unit V V V V V V V V V V V V V V V V V V V V KHz KHz KHz Supply Voltage Oscillator Start-up Voltage Oscillator Sustain Voltage Supply Voltage Supply Voltage Input 'H' Voltage Input 'L' Voltage Input 'H' Voltage Input 'L' Voltage Input 'H' Voltage Input 'L' Voltage Input 'H' Voltage Input 'L' Voltage Input 'H' Voltage Input 'L' Voltage Input 'H' Voltage Input 'L' Voltage Operating Freq Crystal Mode Crystal Mode Ag Mode EXT-V, Li Mode Ag Battery Mode Li Battery Mode OSCIN at Ag Battery Mode OSCIN at Li Battery Mode CFIN at Li Battery or EXT-V Mode RC Mode Crystal Mode External RC Mode CF Mode 1.65 5.25 VDD1+0.7 0.7 VDD2+0.7 0.7 VDD1 0.2 x VDD1 VDD2 0.2 x VDD2 VDD2 0.2 x VDD2 VDDO 0.2 x VDDO 3580 1000 3580 8/20 MTU429B Revision 3.0 28/Oct/1999 MYSON TECHNOLOGY 7.0 ELECTRICAL CHARACTERISTICS At #1: VDD1 = 1.2V (Ag); at #2: VDD2 = 2.4V (Li); at #3: VDD2 = 4V (Ext-V) MTU429B (Preliminary) 7.1 Input Resistance Name 'L'-level Hold Tr (IOC) Symb. Rllh1 Rllh2 Rllh3 Rmad1 Rmad2 Rmad3 Rintu1 Rintu2 Rintu3 Rintd1 Rintd2 Rintd3 Rres1 Rres2 Rres3 Condition Vi=0.2VDD1, #1 Vi=0.2VDD2, #2 Vi=0.2VDD3, #3 Vi=VDD1, #1 Vi=VDD2, #2 Vi=VDD3, #3 Vi=VDD1, #1 Vi=VDD2, #2 Vi=VDD3, #3 Vi=GND, #1 Vi=GND, #2 Vi=GND, #3 Vi=GND or VDD1, #1 Vi=GND or VDD2, #2 Vi=GND or VDD3, #3 Min. 10 10 5 200 200 100 200 200 100 200 200 100 5 5 5 Typ. 40 40 20 500 500 250 500 500 250 500 500 250 20 20 20 Max. 100 100 50 1000 1000 500 1000 1000 500 1000 1000 500 50 50 50 Unit Kohm Kohm Kohm Kohm Kohm Kohm Kohm Kohm Kohm Kohm Kohm Kohm Kohm Kohm Kohm IOC/IOA Pull-down Tr INT Pull-up Tr INT Pull-down Tr RES Pull-down R 7.2 DC Output Characteristics Name Output 'H' Voltage Symb. Voh1a Voh2a Voh3a Vol1a Vol2a Vol3a Voh1c Voh2c Voh3c Vol1c Vol2c Vol3c Condition Ioh=-10uA, #1 Ioh=-50uA, #2 Ioh=-200uA, #3 Iol=20uA, #1 Iol=100uA, #2 Iol=400uA, #3 Ioh=-200uA, #1 Ioh=-1mA, #2 Ioh=-3mA, #3 Iol=400uA, #1 Iol=2mA, #2 Iol=6mA, #3 Port Min. 0.8 1.5 2.5 0.2 0.3 0.5 0.8 1.5 2.5 0.2 0.3 0.5 Typ. 0.9 1.8 3 0.3 0.6 1 0.9 1.8 3 0.3 0.6 1 Max. 1.0 2.1 3.5 0.4 0.9 1.5 1.0 2.1 3.5 0.4 0.9 1.5 Unit V V V V V V V V V V V V SEG1~26 Output 'L' Voltage Output 'H' Voltage SEG27~42 IOA, B, C,D Output 'L' Voltage 9/20 MTU429B Revision 3.0 28/Oct/1999 MYSON TECHNOLOGY 7.3 Segment Driver Output Characteristics Name Symb. Condition For Min. MTU429B (Preliminary) Typ. Max. Unit Output 'H' Voltage Output 'L' Voltage Output 'H' Voltage Output 'L' Voltage Voh1d Voh2d Voh3d Vol1d Vol2d Vol3d Voh1e Voh2e Voh3e Vol1e Vol2e Vol3e Static Display Mode Ioh=-1uA, #1 Ioh=-1uA, #2 Ioh=-1uA, #3 SEG-n Iol=1uA, #1 Iol=1uA, #2 Iol=1uA, #1 Ioh=-10uA, #1 Ioh=-10uA, #2 Ioh=-10uA, #3 COM-n Ioh=10uA, #1 Ioh=10uA, #2 Ioh=10uA, #3 1.0 2.2 3.8 0.2 0.2 0.2 1.0 2.2 3.8 0.2 0.2 0.2 V V V V V V V V V V V V Output 'H' Voltage Output 'L' Voltage Output 'H' Voltage Output 'M' Voltage Output 'L' Voltage 1/2 Bias Display Mode Voh12f Ioh=-1uA, #1, #2 Voh3f Ioh=-1uA, #3 SEG-n Vol12f Iol=1uA, #1, #2 Vol3f lol=1uA, #3 Voh12g Ioh=-10uA, #1, #2 Voh3g Ioh=-10uA, #3 Vom12g Iol/h=+/-10uA, #1, #2 COM-n Vom3g Iol/h=+/-10uA, #3 Vol12g lol=10uA, #1, #2 Vol3g lol=10uA, #3 1/3 Bias Display Mode loh=-1uA, #1, #2 loh=-1uA, #3 lol/h=+/-10uA, #1, #2 lol/h=+/-10uA, #3 SEG-n lol/h=+/-10uA, #1, #2 lol/h=+/-10uA, #3 lol=1uA, #1, #2 lol=1uA, #3 loh=-10uA, #1, #2 loh=-10uA, #3 lol/h=+/-10uA, #1, #2 lol/h=+/-10uA, #3 COM-n lol/h=+/-10uA, #1, #2 lol/h=+/-10uA, #3 loh=10uA, #1, #2 loh=10uA, #3 10/20 2.2 3.8 0.2 0.2 2.2 3.8 1.0 1.8 1.4 2.2 0.2 0.2 V V V V V V V V V V Output 'H' Voltage Output 'M1' Voltage Output 'M2' Voltage Output 'L' Voltage Output 'H' Voltage Output 'M1' Voltage Output 'M2' Voltage Output 'L' Voltage Voh12i Voh3i Vom12i Vom13i Vom22i Vom23i Vol12i Vol3i Voh12j Voh3j Vom12j Vom13j Vom22j Vom23j Vol12j Vol3j 3.4 5.8 1.0 1.8 2.2 3.8 1.4 2.2 2.6 4.2 0.2 0.2 3.4 5.8 1.0 1.8 2.2 3.8 1.4 2.2 2.6 4.2 0.2 0.2 V V V V V V V V V V V V V V V V 28/Oct/1999 MTU429B Revision 3.0 MYSON TECHNOLOGY Name Symb. Condition For Min. 1/4 Bias Display Mode Voh12i loh=-1uA, #1, #2 Voh3i loh=-1uA, #3 Vom12i lol/h=+/-10uA, #1, #2 Vom13i lol/h=+/-10uA, #3 Vom22i lol/h=+/-10uA, #1, #2 SEG-n Vom23i lol/h=+/-10uA, #3 Vom32i lol/h=+/-10uA, #1, #2 Vom33i lol/h=+/-10uA, #3 Vol12i lol=1uA, #1, #2 Vol3i lol=1uA, #3 Voh12m loh=-10uA, #1, #2 Voh3j loh=-10uA, #3 Vom12j lol/h=+/-10uA, #1, #2 Vom13j lol/h=+/-10uA, #3 Vom22j lol/h=+/-10uA, #1, #2 COM-n Vom23j lol/h=+/-10uA, #3 Vom32m lol/h=+/-10uA, #1, #2 Vom33m lol/h=+/-10uA, #3 Vol12j loh=10uA, #1, #2 Vol3j loh=10uA, #3 MTU429B (Preliminary) Typ. Max. Unit Output 'H' Voltage Output 'M1' Voltage Output 'M2' Voltage Output 'M3' Voltage Output 'L' Voltage Output 'H' Voltage Output 'M1' Voltage Output 'M2' Voltage Output 'M3' Voltage Output 'L' Voltage 4.6 7.3 1.0 1.8 2.2 3.8 3.4 5.8 1.4 2.2 2.6 4.2 3.8 6.2 0.2 0.2 4.6 7.3 1.0 1.8 2.2 3.8 3.4 5.8 1.4 2.2 2.6 4.2 3.8 6.2 0.2 0.2 V V V V V V V V V V V V V V V V V V V V 11/20 MTU429B Revision 3.0 28/Oct/1999 MYSON TECHNOLOGY 8.0 INSTRUCTION TABLE ( Total 150 instructions ) Instruction NOP LCT Lz, Ry LCB Lz, Ry LCP Lz, Ry LCD Lz, @HL LCT Lz, @HL LCB Lz, @HL LCP Lz, @HL OPA Rx OPAS Rx, D OPB Rx OPC Rx OPD Rx OPDS Rx, D Machine Code 0000 0000 0000 0000 0000 001Z ZZZZ YYYY 0000 010Z ZZZZ YYYY 0000 011Z ZZZZ YYYY 0000 100Z ZZZZ Z-00 0000 100Z ZZZZ Z-01 0000 100Z ZZZZ Z-10 0000 100Z ZZZZ Z-11 0000 1010 0XXX XXXX 0000 1011 DXXX XXXX 0000 1100 0XXX XXXX 0000 1101 0XXX XXXX 0000 1110 0XXX XXXX 0000 1111 DXXX XXXX MTU429B (Preliminary) Function Flag/Remark FRQ D, Rx 0001 00DD 0XXX XXXX FRQ FRQX MVL MVH MPW1 MPW2 ADC ADC ADC* ADC* SBC SBC SBC* SBC* ADD ADD ADD* ADD* SUB SUB SUB* SUB* ADN ADN ADN* D, @HL D, X Rx Rx Rx Rx Rx @HL Rx @HL Rx @HL Rx @HL Rx @HL Rx @HL Rx @HL Rx @HL Rx @HL Rx 0001 01DD 0000 0000 0001 10DD XXXX XXXX 0001 1100 0XXX XXXX 0001 1101 0XXX XXXX 0001 1110 0XXX XXXX 0001 1111 0XXX XXXX 0010 0000 0XXX XXXX 0010 0000 1000 0000 0010 0001 0XXX XXXX 0010 0001 1000 0000 0010 0010 0XXX XXXX 0010 0010 1000 0000 0010 0011 0XXX XXXX 0010 0011 1000 0000 0010 0100 0XXX XXXX 0010 0100 1000 0000 0010 0101 0XXX XXXX 0010 0101 1000 0000 0010 0110 0XXX XXXX 0010 0110 1000 0000 0010 0111 0XXX XXXX 0010 0111 1000 0000 0010 1000 0XXX XXXX 0010 1000 1000 0000 0010 1001 0XXX XXXX No Operation Lz Lz Lz Lz Lz Lz Lz Port(A) A1, 2, 3, 4 Port(B) Port(C) Port(D) D1, 2, 3, 4 FREQ DD=00 DD=01 DD=10 DD=11 FREQ FREQ @L @H PW1 PW2 AC AC AC, Rx AC, @HL AC AC AC, Rx AC, @HL AC AC AC, Rx AC, @HL AC AC AC, Rx AC, @HL AC AC AC, Rx 12/20 {7SEG Ry} {7SEG Ry} Ry, AC T@HL {7SEG @HL {7SEG @HL @HL, AC Rx Rx0, Rx1, D, Pulse Rx Rx Rx Rx0, Rx1, D, Pulse Rx, AC : 1/4 Duty : 1/3 Duty : 1/2 Duty : 1/1 Duty T@HL X Rx Rx Rx, AC Rx, AC Rx+AC+CF @HL+AC+CF Rx+AC+CF @HL+AC+CF Rx+ACB+CF @HL+ACB+CF Rx+ACB+CF @HL+ACB+CF Rx+AC @HL+AC Rx+AC @HL+AC Rx+ACB+1 @HL+ACB+1 Rx+ACB+1 @HL+ACB+1 Rx+AC @HL+AC Rx+AC CF CF CF CF CF CF CF CF CF CF CF CF CF CF CF CF MTU429B Revision 3.0 28/Oct/1999 MYSON TECHNOLOGY Instruction ADN* @HL AND Rx AND @HL AND* Rx AND* @HL EOR Rx EOR @HL EOR* Rx EOR* @HL OR Rx OR @HL OR* Rx OR* @HL ADCI Ry, D ADCI* Ry, D SBCI Ry, D SBCI* Ry, D ADDI Ry, D ADDI* Ry, D SUBI Ry, D SUBI* Ry, D ADNI Ry, D ADNI* Ry, D ANDI Ry, D ANDI* Ry, D EORI Ry, D EORI* Ry, D ORI Ry, D ORI* Ry, D INC Rx INC* @HL DEC Rx DEC* @HL IPA Rx IPB Rx IPS Rx IPC Rx IPD Rx MAF Rx Machine Code 0010 1001 1000 0000 0010 1010 0XXX XXXX 0010 1010 1000 0000 0010 1011 0XXX XXXX 0010 1011 1000 0000 0010 1100 0XXX XXXX 0010 1100 1000 0000 0010 1101 0XXX XXXX 0010 1101 1000 0000 0010 1110 0XXX XXXX 0010 1110 1000 0000 0010 1111 0XXX XXXX 0010 1111 1000 0000 0011 0000 DDDD YYYY 0011 0001 DDDD YYYY 0011 0010 DDDD YYYY 0011 0011 DDDD YYYY 0011 0100 DDDD YYYY 0011 0101 DDDD YYYY 0011 0110 DDDD YYYY 0011 0111 DDDD YYYY 0011 1000 DDDD YYYY 0011 1001 DDDD YYYY 0011 1010 DDDD YYYY 0011 1011 DDDD YYYY 0011 1100 DDDD YYYY 0011 1101 DDDD YYYY 0011 1110 DDDD YYYY 0011 1111 DDDD YYYY 0100 0000 0XXX XXXX 0100 0000 1000 0000 0100 0001 0XXX XXXX 0100 0001 1000 0000 0100 0010 0XXX XXXX 0100 0100 0XXX XXXX 0100 0110 0XXX XXXX 0100 0111 0XXX XXXX 0100 1000 0XXX XXXX MTU429B (Preliminary) Function @HL+AC Rx AND AC @HL AND AC Rx AND AC @HL AND AC Rx EOR AC @HL EOR AC Rx EOR AC @HL EOR AC Rx OR AC @HL OR AC Rx OR AC @HL OR AC Ry+D+CF Ry+D+CF Ry+DB+CF Ry+DB+CF Ry+D Ry+D Ry+DB+1 Ry+DB+1 Ry+D Ry+D Ry AND D Ry AND D Ry EOR D Ry EOR D Ry OR D Ry OR D Rx+1 @HL+1 Rx-1 @HL-1 Port(A) Port(B) Port(S) Port(C) Port(D) STS1 Flag/Remark AC, @HL AC AC AC, Rx AC, @HL AC AC AC, Rx AC, @HL AC AC AC, Rx AC, @HL AC AC, Ry AC AC, Ry AC AC, Ry AC AC, Ry AC AC, Ry AC AC, Ry AC AC, Ry AC AC, Ry AC, Rx AC, @HL AC, Rx AC, @HL AC, Rx AC, Rx AC, Rx AC, Rx AC, Rx CF CF CF CF CF CF CF CF CF CF CF CF 0100 1010 0XXX XXXX AC, Rx MSB Rx 0100 1011 0XXX XXXX AC, Rx STS2 B3: CF B2: ZERO B1: (No use) B0: (No use) B3: (No use) B2: SCF2(HRx) B1: SCF1(CPT) B0: BCF MTU429B Revision 3.0 28/Oct/1999 13/20 MYSON TECHNOLOGY Instruction MSC Rx Machine Code 0100 1100 0XXX XXXX AC, Rx MTU429B (Preliminary) Function STS3 Flag/Remark B3: SCF7(PDV) B2: PH15 B1: SCF5(TMR1) B0: SCF4(INT) B3: SCF9(RFC) B2: SCF0(APT) B1: SCF6(TMR2) B0: (No use) B3: (No use) B2: RFOVF B1: WDF B0: CSF MCX Rx 0100 1101 0XXX XXXX AC, Rx STS3X MSD Rx 0100 1110 0XXX XXXX AC, Rx STS4 Rx(n+1) 0 Rx(n+1) 1 Rx(n-1) 0 Rx(n-1) 1 BCD(AC) BCD(AC) BCD(AC) BCD(AC) BCD(AC) BCD(AC) D H(T@HL) L(T@HL) @HL+1 L(T@HL) L(T@HL) @HL+1 RFC3-0 RFC7-4 RFC11-8 RFC15-12 AC AC Rx @HL Rx3 Rx @HL Rx Ry X SR0 SR1 SL0 SL1 DAA DAA* DAA* DAS DAS* DAS* LDS LDH LDH* LDL LDL* MRF1 MRF2 MRF3 MRF4 STA STA LDA LDA MRA MRW MWR MRW MWR JB0 Rx Rx Rx Rx Rx @HL 0101 0000 0XXX XXXX 0101 0001 0XXX XXXX 0101 0010 0XXX XXXX 0101 0011 0XXX XXXX 0101 0100 0000 0000 0101 0101 0XXX XXXX 0101 0101 1000 0000 0101 0110 0000 0000 0101 0111 0XXX XXXX Rx 0101 0111 1000 0000 @HL 0101 1DDD DXXX XXXX Rx, D Rx, @HL 0110 0000 0XXX XXXX Rx, @HL Rx, @HL Rx, @HL Rx Rx Rx Rx Rx @HL Rx @HL Rx @HL, Rx RX, @HL Ry, Rx Rx, Ry X 0110 0001 0XXX XXXX 0110 0010 0XXX XXXX 0110 0011 0XXX XXXX 0110 0100 0XXX XXXX 0110 0101 0XXX XXXX 0110 0110 0XXX XXXX 0110 0111 0XXX XXXX 0110 1000 0XXX XXXX 0110 1000 1000 0000 0110 1100 0XXX XXXX 0100 1100 1000 0000 0110 1101 0XXX XXXX 0110 1110 0XXX XXXX 0110 1111 0XXX XXXX 0111 0YYY YXXX XXXX 0111 1YYY YXXX XXXX 1000 0XXX XXXX XXXX ACn, Rxn AC3, Rx3 ACn, Rxn AC3, Rx3 ACn, Rxn AC0, Rx0 ACn, Rxn AC0, Rx0 AC AC, Rx AC, @HL AC AC, Rx AC, @HL AC, Rx AC, Rx AC, Rx @HL AC, Rx AC, Rx @HL AC, Rx AC, Rx AC, Rx AC, Rx Rx @HL AC AC CF AC, @HL AC, Rx AC, Ry AC, Rx PC CF CF CF CF CF CF if AC0=1 14/20 MTU429B Revision 3.0 28/Oct/1999 MYSON TECHNOLOGY Instruction JB1 X JB2 X JB3 X JNZ X JNC X JZ X JC X CALL JMP RTS X X Machine Code 1000 1XXX XXXX XXXX PC MTU429B (Preliminary) Flag/Remark if AC1=1 if AC2=1 if AC3=1 if AC0 if CF=0 if AC0=0 if CF=1 SCC X SCA (SMS) SPA SPB SPC SPD TMS TMS X X X X X Rx @HL TMSX X SPK TM2 TM2 Rx Rx @HL Function X 1001 0XXX XXXX XXXX PC X 1001 1XXX XXXX XXXX PC X 1010 0XXX XXXX XXXX PC X 1010 1XXX XXXX XXXX PC X 1011 0XXX XXXX XXXX PC X 1011 1XXX XXXX XXXX PC X STACK PC+1 1100 XXXX XXXX XXXX PC X 1101 0XXX XXXX XXXX PC X 1101 1000 0000 0000 PC STACK X6=1 : Cfq=BCLK X6=0 : Cfq=PH0 X5=1 : Cpw=BCLK X5=1 : Cpw=PH0 X4, 3=1X : Set P(A) 1101 1001 0XXX XXXX X4, 3=01 : Set P(S) X4, 3=00 : Set P(C) X2, 1, 0=001 : Cch=PH10 X2, 1, 0=010 : Cch=PH8 X2, 1, 0=1XX : Cch=PH6 X0~3 : S1-4 Enable (SEF0~3) 1101 1010 00XX XXXX X5 : A1-4 Enable (SEF5) X4 : C1-4 Enable (SEF4) X4 : Set A4-1 Pull-low 1101 1100 000X XXXX X3~0 : Set A4-1 I/O 1101 1101 0000 XXXX X3-0 : Set D4-1 I/O X4 : Set C4-1 Pull-low / 1101 1110 000X XXXX Low-level hold X3-0 : Set C4-1 I/O 1101 1111 0000 XXXX X3-0 : Set D4-1 I/O 1110 0000 0XXX XXXX Timer1 (Rx), (AC) 1110 0001 0000 0000 Timer1 (T@HL) X7, 6=11 : Ctm=FREQ X7, 6=10 : Ctm=PH15 1110 0010 XXXX XXXX X7, 6=01 : Ctm=PH3 X7, 6=00 : Ctm=PH9 X5~0 : Set Timer1 Value X5=1 : Set all Hi-z 1110 0011 00XX XXXX X4=1 : Set all=1 X3~0 : Set n of 16 1110 0100 0XXX XXXX Timer2 Rx, AC 1110 0101 0000 0000 Timer2 T@HL CALL Return IOC=normal IOC=key_scan IOC=key_scan 15/20 MTU429B Revision 3.0 28/Oct/1999 MYSON TECHNOLOGY Instruction Machine Code X8,7,6=111 X8,7,6=110 X8,7,6=101 X8,7,6=000 X8,7,6=011 X8,7,6=010 X8,7,6=001 X8,7,6=000 X5~0 X6 X5 X4 X3 X2 X1 X6 X5 X4 X3 X2 X1 X0 X8 X6, 4-0 X5 X4 X3 X2 X1 X0 X7 X6 X5 X4 X0~3 SCLK SCLK X7 X5 X4 X3 X2 X1 X0 X7 X5 X4 X2 X1 X0 MTU429B (Preliminary) Function : Ctm=PH13 : Ctm=PH11 : Ctm=PH7 : Ctm=PH5 : Ctm=FREQ : Ctm=PH15 : Ctm=PH3 : Ctm=PH9 : Set Timer2 Value : Enable HEF6(RFC) : Enable HEF5(KEY_S) : Enable HEF4(TMR2) : Enable HEF3(PDV) : Enable HEF2(INT) : Enable HEF1(TMR1) : Enable IEF6(RFC) : Enable IEF5(KEY_S) : Enable IEF4(TMR2) : Enable IEF3(PDV) : Enable IEF2(INT) : Enable IEF1(TMR1) : Enable IEF0(A, CPT) : Reset PH15~11 : Reset HRF6, 5-0 : Enable Cx Control : Enable Timer2 Control : Enable Counter : Enable RH Output : Enable RT Output : Enable RR Output : Enable SRF7 : Enable SRF6 : Enable SRF5 : Enable SRF4 : Enable SRF0~3 : High Speed Clock : High Speed Clock : Reload Set : S-port Pull-low : WDT Enable : HALT after EL-light : EL-light On : BCF Set : CF Set : Reload Reset : S-port L_L H : WDT Reset : EL-Light Off : BCF Reset : CF Reset Flag/Remark TM2X X 1110 011X XXXX XXXX SHE X 1110 1000 0XXX XXX0 SIE* X 1110 1001 0XXX XXXX PLC X 1110 101X 0XXX XXXX SRF X 1110 1100 00XX XXXX SRE X 1110 1101 XXXX XXXX ENX EHM ETP ERR SRF7(KEY_S) SRF6(A Port) SRF5(INT) SRF4(C Port) SRF0~3(S Port) FAST SLOW 1110 1110 0000 0000 1110 1111 0000 0000 RL1 WDF SF X 1111 0000 X0XX XXXX BCF CF RL1 WDF BCF CF RF X 1111 0100 X0XX 0XXX 16/20 MTU429B Revision 3.0 28/Oct/1999 MYSON TECHNOLOGY Instruction SF2 X Machine Code X0 X1 X2 X3 X0 X1 MTU429B (Preliminary) Flag/Remark RL2 DED RSOFF RL2 DED REOFF RF2 X ALM X ELC X HALT STOP Function : Reload Set : Disable Dis-ENX Set 1111 1000 0000 0XXX : Close all segments : Jump to next page : Reload Reset : Disable Dis-ENX 1111 1001 0000 0XXX Reset X2 : Release all segments X8,7,6=111 : FREQ X8,7,6=100 : DC1 X8,7,6=011 : PH3 1111 101X XXXX XXXX X8,7,6=010 : PH4 X8,7,6=001 : PH5 X8,7,6=000 : DC0 X5~0 PH15~10 X8=1 BCLKX X8=0 PH0 X7,6=11 BCLK/8 X7,6=10 BCLK/4 X7,6=01 BCLK/2 X7,6=00 BCLK X5,4=11 1/1 X5,4=10 1/2 X5,4=01 1/3 1111 110X XXXX XXXX X5,4=00 1/4 X3,2 =11 PH5 X3,2=10 PH6 X3,2=01 PH7 X3,2=00 PH8 X1,0=11 1/1 X1,0=10 1/2 X1,0=01 1/3 X1,0=00 1/4 1111 1110 0000 0000 HALT Operation 1111 1111 0000 0000 STOP Operation ELP-CLK BCLKX ELP-DUTY ELC-CLK ELC-DUTY 17/20 MTU429B Revision 3.0 28/Oct/1999 MYSON TECHNOLOGY 8.1 Symbol Description AC ACn X Rx Rxn Ry BCF : Accumulator : Accumulator Bit N : Address : Memory of Address X : Memory Bit N of Address X : Memory of Working Register Y : Backup Flag D PC CF ZERO WDF HL BCLK MTU429B (Preliminary) : Immediate Date : Program Counter : Carry Flag : Zero Flag : Watchdog Timer Enable Flag Index Register System clock stops only in STOP condition @HL : Address of Index IEFn : Interrupt Enable Flag HRFn : HALT Release Flag SRFn : STOP Release Enable Flag HEFn : HALT Release Enable Flag SCFn : Start Condition Flag Cfq : Clock Source of Frequency Generator Cch : Clock Source of Chattering Detector Ctm : Clock Source of Timer TMR : Timer Overflow Release Flag Fout : RFC Frequency () : Content of Register PDV : Predivider SEFn : Switch Enable Flag Lz : LCD Latch FREQ : Frequency Generator Setting Value T@HL : Address of Index ROM ADF : ADC Flag CSF : Clock Source Flag DAC : Digital-to-Analog Converter Output Signal @L : Low Address of Index @H : High Address of Index RFOVF : RFC Overflow Flag H(T@HL) : High Nibble of Index ROM L(T@HL) : Low Nibble of Index ROM 18/20 MTU429B Revision 3.0 28/Oct/1999 MYSON TECHNOLOGY 9.0 APPENDIX ( Important Issue for MTU419/419B/428/429B ) 9.1 Chip' internal vlotage V.S. power mode and external connection s AG Vsupply 2 x VDD1 3 x VDD1 4 x VDD1 VDD1 LI 1/2 x Vsupply Vsupply 3/2 x Vsupply 2 x Vsupply BCF = 0 BCF=1 VDD1 VDD2 EXT-V 1/2 x Vsupply Vsupply 3/2 x Vsupply 2 x Vsupply VDD2 MTU429B (Preliminary) VDD1 VDD2 VDD3 *1 VDD4 *2 BAK *3 Note *1: VDD3 is only used for LCD operating in 1/3 bias and 1/4 bias. If 1/2 bias chosen, VDD3 need be connected to VDD2 (VDD3 is equal to VDD2). *2: VDD4 is only used for LCD operating in 1/4 bias. If 1/3 bias chosen, VDD4 need be connected to VDD3 (VDD4 is equal to VDD3). If 1/2 bias chosen, VDD4 need be connected to VDD2 (VDD4 is equal to VDD2). *3: BAK is defined as chip' internal power supply node, which is used only for internal logic circuitry. s A. Whatever the power mode used, all external VDD# pins must connect a capacitor (0.05uF or 0.1uF) to GND for decoupling power noise using. B. All VDD# pins other than Vsupply are from voltage charge pump, i.e. If no clock, then VDD# pins can not supply out. C. Vsupply is the power supply for Chip and depends on the power mode used, all the input and output pins voltage range follow the Vsupply. 9.2 The capacitor connected between CUP2 and CUP3 is only when MTU429B operating in 1/4 bias. 9.3 Some notes for BCF flag BCF is always set to "High" automatically after Power on, Reset and Stop mode. A. For power saving use, BCF may be set to "Low" which can reduce chip' current consumption. s B. Ag and Li battery mode applications: After Power on, Reset or release from Stop mode. Need to wait 2 seconds long, then can set BCF to "Low". C. Larger current load and fast clock: a. BCF should be set to "High" for the case of fast clock or larger current load (such as RFC, ADC, DAC, EL-light and Buzzer output) use. b. After set BCF to "high", need wait 2 ms long at least, then can enable larger current load. Or after disable Larger current load, need wait 2ms long at least, then can set BCF to "Low" D. Li battery mode applications: Especially for Li battery mode, BCF switching will cause a temporary current surge (or power noise) on BAK. Furthermore if not necessary, don' switch BCF too often as possible. t E. Improperly use of BCF will cause malfunction to chips. 19/20 MTU429B Revision 3.0 28/Oct/1999 MYSON TECHNOLOGY MTU429B (Preliminary) F. Lower current consumption and reliability: The chip' reliability will greatly decrease if invalid use BCF, especially for Li-battery mode. Because the s chip' internal power also switches between VDD1 and VDD2, which also cause a temporary power s noise. 9.4 Input pin Any input pins floating will cause chips in malfunction and large current consumption. 9.5 32.768KHz X' al oscillator t Always layout the X'al as close the Chips as possible and don' place any signals across the layout routing. t t Since X'al oscillation circuit consumes current only 0.5uA to 1uA, any power noise will disturb the oscillation. t The proper external capacitors for Xin and Xout are necessary for the accuracy and stability of oscillation. 1/( Cin+Cpcb ) + 1/( Cout+Cpcb ) = 1/CL The Chip' Xout pin has an internal capacitor around 10~20pf connected to BAK (chip' internal Node). s s For example Epson' C-001R 20ppm, CL=12.5pf s Cin = 25pf Cout = 15pf The time accuracy will be around +/- 0.5 second/day Note: The parasitic capacitors of X'al pins in PCB layout need be considered in above calculation. t 9.6 RFC / Event counter / IOA for MTU429B If anyone uses RFC / Event counter function and IOAs in the same application, make sure the pin IOA1 (which is corresponding to CX by mask option) must set as IOA' output mode by SPA instruction. Or the s signal changes on CX pin may cause halt release or interrupt for IOA' port. In this case the program couldn' s t function properly. Myson Technology, Inc. No. 2, Industry E. Rd. III, Science-Based Industrial Park, Hsinchu, Taiwan, R. O. C. Tel: +886-3-5784866 Fax: +886-3-5785002 http://www.myson.com.tw 20/20 MTU429B Revision 3.0 28/Oct/1999 |
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