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6502 microprocessor

Catalog Datasheet MFG & Type PDF Document Tags

SY6522

Abstract: 6502 microprocessor required to interface the TC7135 to a microprocessor. The circuit was developed for a 6502 µP and 6522 I/O , A 6502 MICROPROCESSOR ; USING A 6522 I/O PORT ; ; RESULTS ARE STORED IN 5 BYTES OF ZERO-PAGE , APPLICATION NOTE 16 TC7135 MICROPROCESSOR INTERFACE by Wes Freeman Many data acquisition , of an LSI I/O chip, simplify a microprocessor interface. The relationship between the various TC7135 , Outputs AN16-1 TC7135 MICROPROCESSOR INTERFACE AN-16 Interface Hardware cycles apart. A TC7135
TelCom Semiconductor
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TC700A SY6522 6502 microprocessor SYP6522 ADC 7135 6522 6522 VIA TC7211A TC7212A

6502 microprocessor

Abstract: SY6522 ; TC7135 INTERFACE TO A 6502 MICROPROCESSOR ; USING A 6522 I/O PORT ; ; RESULTS ARE STORED IN 5 BYTES OF , AN16 TC7135 Microprocessor Interface Author: · · Wes Freeman, Microchip Technology, Inc , the TC7135 to a microprocessor. The circuit was developed for a 6502µP and 6522 I/O port, but the , /O chip, simplify a microprocessor interface. The relationship between the various TC7135 outputs is , the 6522's PA0 through PA7 inputs. The TC7135's STROBE output interrupts the microprocessor via the
Microchip Technology
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650*2 Microprocessor DAC with BCD input DAC with BCD inputs PIC REF 1 UPS via 6522 AN16 11F-3 DK-2750 D-81739 D-82152 DS00784A-

SY6522

Abstract: an-788 ; USING THE TC7109 INTERFACED TO A 6502 ; MICROPROCESSOR VIA A 6522 I/O PORT ; RESULTS STORED AT , conversion-speed limitation of integrating A/D converters. A microprocessor with program-controlled numerical , conversion time, irrespective of the signal input. Finally, the microprocessor must sum all three , shows connections for a system using the TC7109 in conjunction with a 6502 processor and 6522 , -sample average taken in the microprocessor. The system would still respond to large signal deviations in a
Microchip Technology
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AN788 an-788 MICROCHIP ADC 7109 Samsung multimeter chip 02b9 Digital Multimeter flowchart and schematic diagram DS00788A DS00788A-

SY6522

Abstract: 6522 rockwell DEMONSTRATE NUMERICAL INTEGRATION ; USING THE TC7109 INTERFACED TO A 6502 ; MICROPROCESSOR VIA A 6522 I/O , conversionspeed limitation of integrating A/D converters. A microprocessor with program-controlled numerical , conversion time, irrespective of the signal input. Finally, the microprocessor must sum all three , AN-27 Figure 6 shows connections for a system using the TC7109 in conjunction with a 6502 processor , harmonics of 20 Hz (including, of course, 60 Hz), with a 5-sample average taken in the microprocessor. The
TelCom Semiconductor
Original
6522 rockwell rockwell 6522 AIM-65 rockwell 6522 VIA dual slope adc K3534

SY6522

Abstract: ADC 7109 ; USING THE TC7109 INTERFACED TO A 6502 ; MICROPROCESSOR VIA A 6522 I/O PORT ; RESULTS STORED AT , conversion-speed limitation of integrating A/D converters. A microprocessor with program-controlled numerical , , irrespective of the signal input. Finally, the microprocessor must sum all three conversions to achieve the , shows connections for a system using the TC7109 in conjunction with a 6502 processor and 6522 , -sample average taken in the microprocessor. The system would still respond to large signal deviations in a
Microchip Technology
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ADC 7109 A580 sy6522 via A912 000D A800

db3 c605

Abstract: ls 2466 OP AMPLIFIER Interfa ce C ircu it AD7534 - 6502 INTERFACE The interface circuit for the 6502 microprocessor is shown , Microprocessor Based Control Systems Digital Audio Reconstruction High Precision Servo Control Control and , possible to achieve a low output leakage current at high temperatures, 3. Microprocessor Compatibility High , 8085A micro processor is given in Figure 9. T he microprocessor sees the DAC as four memory locations , AD7534 may be interfaced to the 16-bit 8086 microprocessor using the circuit of Figure 10. The bottom 8
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db3 c605 ls 2466 OP AMPLIFIER interfacing DAC with 8086 microprocessor DB4 c605 AD7534JP MC68008 MC68000

6502 microprocessor

Abstract: interfacing DAC with 8086 microprocessor the 6502 microprocessor is shown in Figure 12. â'¢LINEAR CIRCUITRY OMITTED FOR CLARITY Figure 12 , Microprocessor Based Control Systems Digital Audio Reconstruction High Precision Servo Control Control and , temperatures. 3. Microprocessor Compatibility High speed input control (TTL/5V CMOS compatible) allows direct , Figure 8. Graph of Typical Leakage Current vs. Temperature for AD7534 REV. A 9- AD7534 MICROPROCESSOR INTERFACING AD7534 - 8085A INTERFACE A typical interface circuit for the AD7534 and the 8085A microprocessor
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AD7534JN Z80 PROCESSOR MC6809 AD544 AD7534KN AD7534KP 20-PIN MIL-M-38510

6502 microprocessor

Abstract: Interface Circuit AD7S34 - 6502 INTERFACE The interface circuit for the 6502 microprocessor is shown , Temperature Range APPLICATIONS Microprocessor Based Control Systems Digital Audio Reconstruction High , . Microprocessor Compatibility High speed input control (TTL/5V CMOS compatible) allows direct interfacing to most , Figure 8. Graph o f Typical Leakage Current vs. Temperature for AD7S34 AD7534 MICROPROCESSOR , is given in Figure 9. The microprocessor sees the DAC as four memory locations, identified by address
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db3 c605

Abstract: AD7534JN MC6809 Interface Circuit AD7S34 - (502 INTERFACE Hie interface circuit for the 6502 microprocessor is , Mount Package Low Output Leakage ( , temperatures. 3. Microprocessor Compatibility High speed input control (TTL/5V CMOS compatible) allows direct , . Temperature for AD7S34 REV. A -9- AD7534 MICROPROCESSOR INTERFACING AD7S34 - 808SA INTERFACE A typical interface circuit for the AD7534 and the 808$A microprocessor it given in Figure 9. The microprocessor sees
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A07534 P-20A c605 db3 OA47 z80 microprocessor ht 1086 DC-01 A07SS4

6502 microprocessor

Abstract: nmos 6502 microprocessor NMOS 6500 series microprocessors. â'¢ 64 K-byte addressable memory. The NCR CMOS 6502 is an 8-bit microprocessor which is software compatible with the NMOS 6502. The NCR65C02 hardware interfaces with all 6500 , ENHANCEMENTS Function NMOS 6502 Microprocessor NCR65C02 Microprocessor Indexed addressing across page , , then interrupt is executed. > MICROPROCESSOR HARDWARE ENHANCEMENTS Function NMOS 6502 NCR65C02 , ten new instructions and two additional addressing modes. â'¢ 66 microprocessor instructions. â'¢ 15
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65C02 M6800 nmos 6502 microprocessor EZ536 TSX plp 01 6502 timing diagram Cmos 6502 6502 CPU architecture block diagram

ad7548

Abstract: AD7548JN 6502 INTERFACE Figure 14 shows a typical AD7548 to 6502 microprocessor interface configured for , Full 4 Quadrant Multiplication Skinny DIP and Surface Mount Packages APPLICATIONS 8-Bit Microprocessor , . Microprocessor Compatibility High speed input control (TTL/5V CMOS compatible) allow direct interfacing to most , calling on the microprocessor to load calibration data. -6 - UNIPOLAR BINARY OPERATION (2 , Converters" , Publi cation Number G479- 15- 8/78, available from Analog Devices. MICROPROCESSOR
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AD7548JN a2004c 548-Z E-20A

G479-15-8

Abstract: AD544 AD7548 - 6502 INTERFACE Figure 14 shows a typical AD7548 to 6502 microprocessor interface configured for , and Surface Mount Packages APPLICATIONS 8-Bit Microprocessor Based Control Systems Programmable , to most of the popular 8-bit microprocessors. PRODUCT HIGHLIGHTS 1. Microprocessor Compatibility , in circuits such as Figure 6 without calling on the microprocessor to load calibration data , ", Publication Number G479-15-8/78, available from Analog Devices. MICROPROCESSOR INTERFACING AD7548 - MC6800
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G479-15-8 AD7548AQ AD7548KN AD7S48 MO-095-AE

Ad7847an

Abstract: AD7837 and the 6502 or 6809 microprocessor. For the 6502 microprocessor, the 2 clock is used to generate , trims are required to achieve full specified performance. Both parts are microprocessor compatible , where NA = DAC A input code in decimal (1 NA 4095) MICROPROCESSOR INTERFACING­AD7847 and NB = , three popular 16-bit microprocessor systems, the 8086, MC68000 and the TMS320C10. In all interfaces , . Figure 11 shows an interface between the AD7847 and the 8086 microprocessor. A single MOV instruction
Analog Devices
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AD7837 Ad7847an AD7837AN AD7837AQ AD7837AR AD7837BN AD7837/AD7847

7493 PIN function MSB LSB

Abstract: AD7837 AD7837 and the 6502 or 6809 microprocessor. For the 6502 microprocessor, the 2 clock is used to , LATCH B CS Both parts are microprocessor compatible, with high speed data latches and interface , ­V IN 12 A 2 + NA N VOUT B = ­V IN 12 B 2 + NB MICROPROCESSOR INTERFACING­AD7847 , AD7847 and three popular 16-bit microprocessor systems, the 8086, MC68000 and the TMS320C10. In all , and the 8086 microprocessor. A single MOV instruction loads the 12-bit word into the selected DAC
Analog Devices
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7493 PIN function MSB LSB AD7837BQ AD7837BR

adc interfacing with 8085

Abstract: sk 8085 microcomputer. The Apple II, based on a IMHz 6502 microprocessor, meets all timing requirements for the AD573 , Reference, Clock and Comparator Full 8- or 16-Bit Microprocessor Bus Interface Fast Successive , - ns Output Float Delay tHL - 100 200 ns MICROPROCESSOR INTERFACE CONSIDERATIONS -GENERAL When an analog-to-digital converter like the AD573 is interfaced to a microprocessor, several details of the interface must , can interface to a microprocessor system with little or no external logic. The most popular control
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adc interfacing with 8085 sk 8085 ad513 8085 memory organization design adc interfaces with 8085 microprocessor 8085 hex code AD573-8085A 3000H 3001H-T

8085 assembly language

Abstract: 8085 microprocessor 6502 microprocessor, meets all timing requirements for the AD573. Only a few TTL gates are required to , -Bit Microprocessor Bus Interface Fast Successive Approximation Conversion-20 s typ No Missing Codes Over , VOH VOL Figure 11. General AD573 Interface to 8-Bit Microprocessor tHD HIGH IMPEDANCE , µs ns tHD tHL 50 ­ ­ 100 ­ 200 ns ns MICROPROCESSOR INTERFACE CONSIDERATIONS- GENERAL When an analog-to-digital converter like the AD573 is interfaced to a microprocessor, several
Analog Devices
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8085 assembly language 8085 microprocessor apple 30 pin connector 74LS00 pinout lin bus pinout DB9 8085 microprocessor hex code 10-BIT 3001H

8085 memory organization

Abstract: Interfacing 8085 MHz 6502 microprocessor, meets all timing requirements for the AD573. Only a few TTL gates are , -Bit Microprocessor Bus Interface Fast Successive Approximation Conversion-20 s typ No Missing Codes Over , IMPEDANCE tDD VOH VOL Figure 11. General AD573 Interface to 8-Bit Microprocessor tHD HIGH , ns µs µs ns tHD tHL 50 ­ ­ 100 ­ 200 ns ns MICROPROCESSOR INTERFACE CONSIDERATIONS- GENERAL When an analog-to-digital converter like the AD573 is interfaced to a microprocessor
Analog Devices
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Interfacing 8085 8085 timing diagram 74LS74 pinout zener n20 AD582 AD573JN
Abstract: interface between the AD7837 and the 6502 or 6809 microprocessor. For the 6502 microprocessor, the Ï , £· 2 + NA    N  VOUT B = â'"V IN  12 B   2 + NB  MICROPROCESSOR INTERFACINGâ'"AD7847 Figures 20 to 22 show interfaces between the AD7847 and three popular 16-bit microprocessor , AD7847 and the 8086 microprocessor. A single MOV instruction loads the 12-bit word into the selected , MICROPROCESSOR INTERFACINGâ'"AD7837 ADDRESS BUS 8086 ALE ADDRESS DECODE 16 BIT LATCH CSA CSB -
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MOS 6502

Abstract: AD7837 microprocessor. For the 6502 microprocessor, the 2 clock is used to generate the WR, while for the 6809 the E , are microprocessor compatible, with high speed data latches and interface logic. The AD7847 accepts , N VOUT B = ­V IN 12 B 2 + NB MICROPROCESSOR INTERFACING­AD7847 where NA = DAC A input , 16-bit microprocessor systems, the 8086, MC68000 and the TMS320C10. In all interfaces, the AD7847 is , microprocessor. A single MOV instruction loads the 12-bit word into the selected DAC latch and the output
Analog Devices
Original
MOS 6502

74LS74 pinout

Abstract: 8085 microprocessor pin diagram 16-Bit Microprocessor Bus Interface Fast Successive Approximation Conversion-20 s typ No Missing , IMPEDANCE tDD VOH VOL DATA VALID tHD Figure 11. General AD573 Interface to 8-Bit Microprocessor , end of a conversion. MICROPROCESSOR INTERFACE CONSIDERATIONS- GENERAL When an analog-to-digital converter like the AD573 is interfaced to a microprocessor, several details of the interface must be , interface to a microprocessor system with little or no external logic. The most popular control signal
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8085 microprocessor pin diagram ad5738 8085 hex codes variable time delay circuit using 8085
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