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Related Manuals for Motorola M68LC302CAF20VCT
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- Page 1 M68ICS08RKUM/D REV. 1 M68ICS08RK In-Circuit Simulator User’s Manual...
- Page 2 Motorola further assumes no liability arising out of the application or use of any information, product, or system described herein: nor any liability for incidental or consequential damages arising from the use of this document.
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Page 3: Section 1. Introduction
Index......... . 83 M68ICS08RK In-Circuit Simulator — Rev. 1 User’s Manual MOTOROLA List of Sections... - Page 4 List of Sections User’s Manual M68ICS08RK In-Circuit Simulator — Rev. 1 List of Sections MOTOROLA...
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Page 5: Table Of Contents
(For Target Cable Connection) ..... . . 25 2.3.2.2 MCU Bus Frequency Selection Header (W2)....25 M68ICS08RK In-Circuit Simulator — Rev. 1 User’s Manual MOTOROLA Table of Contents... - Page 6 Sample Application........48 User’s Manual M68ICS08RK In-Circuit Simulator — Rev. 1 Table of Contents MOTOROLA...
- Page 7 Index ..........83 M68ICS08RK In-Circuit Simulator — Rev. 1 User’s Manual MOTOROLA Table of Contents...
- Page 8 Table of Contents User’s Manual M68ICS08RK In-Circuit Simulator — Rev. 1 Table of Contents MOTOROLA...
- Page 9 M68IC508RK2 Board Layout ......71 M68ICS08RK In-Circuit Simulator — Rev. 1 User’s Manual MOTOROLA List of Figures...
- Page 10 List of Figures User’s Manual M68ICS08RK In-Circuit Simulator — Rev. 1 List of Figures MOTOROLA...
- Page 11 RKICS Parts List ........68 M68ICS08RK In-Circuit Simulator — Rev. 1 User’s Manual MOTOROLA List of Tables...
- Page 12 List of Tables User’s Manual M68ICS08RK In-Circuit Simulator — Rev. 1 List of Tables MOTOROLA...
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Page 13: Contents
Customer Support ........18 1.2 Overview This section provides an overview of the Motorola M68ICS08RK in-circuit simulator (RKICS). - Page 14 The RKICS connects to the target machine via the provided 20-pin ribbon cable or an optional Motorola M68CLB05A flex cable (available separately). It connects to the software host via a single RS-232 connection and a standard DB-9 serial cable.
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Page 15: Rkics Components
Table 1-2 lists the RKICS hardware components. Table 1-2. Hardware Components Components Description Test sockets for the Motorola MC68HC908RK2 MCU: 20-pin SSOP (small shrink outline package) 20-pin SOIC (small outline integrated circuit) 32-pin QFP (quad flat pack) User-selectable 2.0-volt to 3.3-volt variable voltage level shifter RS-232 to interface the RKICS to the host serial connector One 2-row ×... -
Page 16: Ics Interface Software
In-circuit and stand-alone simulation of MC68HC908RK2 MCUs with ICS08RKZ, including: – Simulation of all instructions, memory, and peripherals – Optional simulator pin inputs from the target – Conditional breakpoints, script files, and logfiles User’s Manual M68ICS08RK In-Circuit Simulator — Rev. 1 Introduction MOTOROLA... -
Page 17: Hardware And Software Requirements
• Approximately 2 Mbytes of available random-access memory (RAM) and 5 Mbytes of free disk space • A serial port for communications between the RKICS and the host computer M68ICS08RK In-Circuit Simulator — Rev. 1 User’s Manual MOTOROLA Introduction... -
Page 18: Specifications
The procedural instructions in this manual assume that the user is familiar with the Windows interface and selection procedures. 1.8 Customer Support To obtain information about technical support or ordering parts, call the Motorola help desk at 800-521-6274. User’s Manual M68ICS08RK In-Circuit Simulator — Rev. 1 Introduction... -
Page 19: Section 2. Hardware Installation
Connecting to a Target System ......33 M68ICS08RK In-Circuit Simulator — Rev. 1 User’s Manual MOTOROLA Hardware Installation... -
Page 20: Overview
The RKICS includes a single 4-inch × 6-inch printed circuit board (PCB) (M68ICS08RK2). Figure 2-1 shows a diagram of the RKICS board, Figure 2-2 shows a block diagram of the RKICS board, and Figure 2-3 is the functional block diagram. User’s Manual M68ICS08RK In-Circuit Simulator — Rev. 1 Hardware Installation MOTOROLA... - Page 21 Hardware Installation Configuring the In-Circuit Simulator Board Figure 2-1. RKICS Board Layout M68ICS08RK In-Circuit Simulator — Rev. 1 User’s Manual MOTOROLA Hardware Installation...
- Page 22 ON TARGET AND RESET CONFIGURATION RST, IRQ, PB0, PB2, PB3 Figure 2-2. M68ICS08RK2 In-Circuit Simulator Block Diagram VOLTAGE RS-232 ICS INTERFACE ADJUSTMENT PC HOST Figure 2-3. ICS Functional Diagram User’s Manual M68ICS08RK In-Circuit Simulator — Rev. 1 Hardware Installation MOTOROLA...
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Page 23: Rkics Limitations
Five jumper headers on the RKICS are used to reconfigure the hardware options. Table 2-1 is a quick reference to these optional settings, while subsections 2.3.2.1 through 2.3.2.4 describe jumper header configuration in greater detail. M68ICS08RK In-Circuit Simulator — Rev. 1 User’s Manual MOTOROLA Hardware Installation... -
Page 24: Rkics Jumper Header Description
Y1. source No jumpers installed on jumper headers W4 and W5 — Connect an external clock source to the RKICS MCU OSC1 input pin via W5 pin 2. User’s Manual M68ICS08RK In-Circuit Simulator — Rev. 1 Hardware Installation MOTOROLA... -
Page 25: Rkics Power Source Selection Header (W1) (For Target Cable Connection)
Crystal Oscillator Frequency divided by 4 = Bus Frequency (factory Bus Frequency divided by 256 = Baud Rate default) Crystal Oscillator Frequency divided by 2 = Bus Frequency Bus Frequency divided by 256 = Baud Rate M68ICS08RK In-Circuit Simulator — Rev. 1 User’s Manual MOTOROLA Hardware Installation... -
Page 26: Board Reset Selection Header (W3)
(ICS-OCS) to the external clock input (OSC1) of the RKICS via jumper headers W4 and W5 (refer to Figure 2-7). Refer to Table 2-3 for a description of the clock source options. Figure 2-7. Clock Source Selection Jumper Headers User’s Manual M68ICS08RK In-Circuit Simulator — Rev. 1 Hardware Installation MOTOROLA... -
Page 27: Dip Target Connector (J3)
• • PTB4 PTA5 • • PTB5 PTA6 • • TGT-PTB3 PTA7 • • TGT-OSC1 TGT-RST • • TGT-IRQ • • Ground TGT-VDD Figure 2-8. J3 DIP Emulation Cable M68ICS08RK In-Circuit Simulator — Rev. 1 User’s Manual MOTOROLA Hardware Installation... -
Page 28: Operating Voltage Selection Header (J4) And Adjustment Potentiometer (R39)
Use connector J1 to connect the RKICS to the target system via the provided target cable. Connector J1 is a 40-pin shrouded header. Use the optional Motorola M68CLB05A flex cable (which must be purchased separately) to interconnect the RKICS to the target system, via connector J1.Figure 2-10 shows J1 pinouts. - Page 29 • • Ground Ground • • Ground Ground • • Ground Ground • • Ground Ground • • Ground Ground • • Ground Ground Figure 2-10. J1 Target Interface M68ICS08RK In-Circuit Simulator — Rev. 1 User’s Manual MOTOROLA Hardware Installation...
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Page 30: Mon08 Connector (J2)
• RST-IN • • TGT-IRQ • • TGT-PTA0 PTA0 • • TGT-PTB0 PTB0 • • TGT-PTB2 PTB2 • • TGT-PTB3 PTB3 • • Figure 2-11. J2 MON08 Cable Connectors User’s Manual M68ICS08RK In-Circuit Simulator — Rev. 1 Hardware Installation MOTOROLA... -
Page 31: Host Computer - Rkics Interconnection (P2)
Connect +5-Vdc power directly to the RKICS via connector P1 using the provided power supply. Power connector P1 pinouts are shown in Figure 2-13. +5 Vdc Figure 2-13. P1 Power Connector M68ICS08RK In-Circuit Simulator — Rev. 1 User’s Manual MOTOROLA Hardware Installation... -
Page 32: Installing The Hardware
Hardware Installation 2.4 Installing the Hardware For installing Motorola development tools, the following steps provide installation instructions for the RKICS hardware. Before beginning, locate these items: • 9-pin RS-232 serial connector on the board, labeled P2 • 5-volt circular power-input connector on the RKICS To prepare the RKICS for use with a host PC: 1. -
Page 33: Connecting To A Target System
Connect the board’s MON08 connector with a compatible MON08 connector on the target system. Complete instructions for constructing this interface on the target board are found in Section 4. Using the MON08 Interface. M68ICS08RK In-Circuit Simulator — Rev. 1 User’s Manual MOTOROLA Hardware Installation... - Page 34 Hardware Installation User’s Manual M68ICS08RK In-Circuit Simulator — Rev. 1 Hardware Installation MOTOROLA...
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Page 35: Section 3. Support Information
The on-board MCU (the test MCU) simulates and debugs the MCU’s interface to its peripherals and to other devices on the target board through a variety of connections. M68ICS08RK In-Circuit Simulator — Rev. 1 User’s Manual MOTOROLA Support Information... -
Page 36: Level Translation
M68ICS08RK2 board. NOTE: The signal descriptions in the following tables are for quick reference only. The MC68HC908RK2 User's Manual, MC68HC908RK2/D, contains a complete description of the MC68HC908RK2 MCU signals. User’s Manual M68ICS08RK In-Circuit Simulator — Rev. 1 Support Information MOTOROLA... -
Page 37: Target Connector J1
MCU ground Ground MCU ground Ground MCU ground OSC1 OSC1 Crystal amplifier input TGT-VDD Power MCU power TGT-RST In or out External reset TGT-VDD Power MCU power TGT-IRQ External Interrupt M68ICS08RK In-Circuit Simulator — Rev. 1 User’s Manual MOTOROLA Support Information... - Page 38 Ground Flex cable shield ground None Ground Flex cable shield ground None Ground Flex cable shield ground None Ground Flex cable shield ground None Ground Flex cable shield ground User’s Manual M68ICS08RK In-Circuit Simulator — Rev. 1 Support Information MOTOROLA...
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Page 39: Mon08 Connector J2 Pin Assignments
PORT B (bit 2) — General-purpose MCU I/O signal TARGET PORT B (bit 3) — General-purpose I/O signal from the target TGT-PTB3 system PTB3 PORT B (bit 3) — General-purpose MCU I/O signal No connection No connection M68ICS08RK In-Circuit Simulator — Rev. 1 User’s Manual MOTOROLA Support Information... -
Page 40: Target Dip Connector J3
Port A I/O / keyboard interrupt – bit 3 PTA2/KBD2 PTA2 Bidirectional Port A I/O / keyboard interrupt – bit 2 PTA1/KBD1 PTA1 Bidirectional Port A I/O / keyboard interrupt – bit 1 User’s Manual M68ICS08RK In-Circuit Simulator — Rev. 1 Support Information MOTOROLA... -
Page 41: Power Connector P1 Pin Assignments
RECEIVE DATA — Output for sending serial data to the DTE device TRANSMIT DATA — Input for receiving serial data output from the DTE device DATA TERMINAL READY — Input for receiving on-line/in-service/active status from the DTE device GROUND M68ICS08RK In-Circuit Simulator — Rev. 1 User’s Manual MOTOROLA Support Information... -
Page 42: Target-Cable Pin Assignments
Target Head Package Connector Pin No. Board Label Adapter Pin No. Pin No. J2 Pin No. TGT-PTB0 TGT-PTA0 PTA1 PTB1 PTA2 PTA3 TGT-PTB2 PTA4 PTA5 PTB4 PTA6 PTA7 PTB5 TGT-PTB3 User’s Manual M68ICS08RK In-Circuit Simulator — Rev. 1 Support Information MOTOROLA... - Page 43 Target Head Adapters (Continued) SOIC/SSOP M68ICS08RK2 QFP Package M68ICS08RK2 Target Head Package Connector Pin No. Board Label Adapter Pin No. Pin No. J2 Pin No. OSC1 TGT-VDD TGT-RST TGT-VDD TGT-IRQ TGT-VDD M68ICS08RK In-Circuit Simulator — Rev. 1 User’s Manual MOTOROLA Support Information...
- Page 44 Support Information User’s Manual M68ICS08RK In-Circuit Simulator — Rev. 1 Support Information MOTOROLA...
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Page 45: Section 4. Using The Mon08 Interface
P2. Figure 4-1 shows the pin layouts for P1 and P2. Additional information about the connections on the RKICS board can be found in Appendix B. Technical Reference and Troubleshooting. M68ICS08RK In-Circuit Simulator — Rev. 1 User’s Manual MOTOROLA Using the MON08 Interface... -
Page 46: Mon08 Target System Connector P1
MCU. Connect to MCU PTB3 pin. No other target-system logic should be PTB3 Bidirectional tied to this signal. Grounded during reset. Not connected Not connected User’s Manual M68ICS08RK In-Circuit Simulator — Rev. 1 Using the MON08 Interface MOTOROLA... -
Page 47: Connecting To The In-Circuit Simulator
Figure 4-2. This reconnects the target MCU to the appropriate circuits on the target system. M68ICS08RK In-Circuit Simulator — Rev. 1 User’s Manual MOTOROLA Using the MON08 Interface... -
Page 48: Sample Application
The circuit shown in Figure 4-3 intercepts the mode select and communication signals for in-circuit debugging and programming. APPLICATION MC68HC908RK2 RST-OUT RST-IN PTA0 PTB0 PTB2 PTB3 Figure 4-3. Application Designed with a Circuit for MON08 User’s Manual M68ICS08RK In-Circuit Simulator — Rev. 1 Using the MON08 Interface MOTOROLA... -
Page 49: Appendix A. S-Record Information
ASCII Characters ........54 A.2 Overview The Motorola S-record format was devised to encode programs or data files in a printable format for transport between computer platforms. The format also provides for editing of the S records and monitoring the cross-platform transfer process. -
Page 50: S-Record Fields
Accuracy of transmission is ensured by the record length (byte count) and checksum fields. User’s Manual M68ICS08RK In-Circuit Simulator — Rev. 1 S-Record Information MOTOROLA... -
Page 51: S-Record Types
A.4 S-Record Types Eight types of S records have been defined to accommodate the several needs of the encoding, transport, and decoding functions. The various Motorola upload, download, and other record transport control programs, as well as cross assemblers, linkers, and other file-creating or debugging programs, utilize only those S records which serve the purpose of the program. -
Page 52: S Record Creation
Entry Type S-record type S0, indicating a header record Record Hexadecimal 06 (decimal 6), indicating six Length character pairs (or ASCII bytes) follow Address 4-character, 2-byte address field; zeroes User’s Manual M68ICS08RK In-Circuit Simulator — Rev. 1 S-Record Information MOTOROLA... -
Page 53: First S1 Record
4, $23, $018C Checksum Checksum of the first S1 record The 16 character pairs shown in the code/data field of Table A-5 are the ASCII bytes of the actual program. M68ICS08RK In-Circuit Simulator — Rev. 1 User’s Manual MOTOROLA S-Record Information... -
Page 54: S9 Termination Record
CHECKSUM 0101 0011 0011 0001 0011 0001 0011 0011 0011 0000 0011 0000 0011 0000 0011 0000 0011 0010 0011 1000 0011 0101 0100 0110 0011 0010 0100 0001 User’s Manual M68ICS08RK In-Circuit Simulator — Rev. 1 S-Record Information MOTOROLA... -
Page 55: Appendix B. Technical Reference And Troubleshooting
(ESD). Wear a grounding wrist strap whenever handling any printed circuit board. This strap provides a conductive path for safely discharging static electricity to ground. M68ICS08RK In-Circuit Simulator — Rev. 1 User’s Manual MOTOROLA Technical Reference and Troubleshooting... -
Page 56: Rkics Board
The 20-pin ribbon cable is included in the kit and cannot be ordered separately. • A flexible target head adapter cable (Motorola part number M68CBL05A), terminating in connectors for one of three target head adapters. This cable must be ordered separately. Four target head adapters (THAs) are available for use with the flex cable: –... - Page 57 RKICS Board When the MCU resides on a target system, the RKICS board can communicate with the MCU over a 16-pin MON08 cable (Motorola part number 01-RE91008W01). The MON08 cable supports the MCU installed in either the target system or the RKICS.
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Page 58: Troubleshooting The Start Up
Check the power at the output of the adapter. First disconnect the RKICS from the power supply, then measure the power at the wall adapter’s output connector to confirm that it produces +5 Vdc. The User’s Manual M68ICS08RK In-Circuit Simulator — Rev. 1 Technical Reference and Troubleshooting MOTOROLA... - Page 59 If the MCU power LED is on, there may be a problem with the host PC’s serial port or the serial cable. See step 5 for communications M68ICS08RK In-Circuit Simulator — Rev. 1 User’s Manual MOTOROLA Technical Reference and Troubleshooting...
- Page 60 They are wired only for probing purposes. b. Make sure that the serial cable is correctly attached to the RKICS and to the correct serial port on the host computer. User’s Manual M68ICS08RK In-Circuit Simulator — Rev. 1 Technical Reference and Troubleshooting MOTOROLA...
- Page 61 21). Set the oscilloscope to 0.1 ms per division. The oscillator should run when the MCU power LED is on. Approximately two divisions per cycle should be observed. This corresponds to a 4.9152-MHz signal, the M68ICS08RK In-Circuit Simulator — Rev. 1 User’s Manual MOTOROLA Technical Reference and Troubleshooting...
- Page 62 Either RST or IRQ must remain at +7.5 Vdc to hold the MCU in monitor mode. The RKICS board has an interrupt lock out feature to keep IRQ at 7.5 Vdc when the RST or RST-IN signal is asserted User’s Manual M68ICS08RK In-Circuit Simulator — Rev. 1 Technical Reference and Troubleshooting MOTOROLA...
- Page 63 If the RKICS is to provide power to the target system, ensure that the current drain on the target connector’s V pins is kept under 100 mA. M68ICS08RK In-Circuit Simulator — Rev. 1 User’s Manual MOTOROLA Technical Reference and Troubleshooting...
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Page 64: Troubleshooting Mon08 Mode
LED should be off. If the MCU power LED is on, there may be a problem with the host PC’s serial port or the serial cable. Refer to step 9 for information on host communications. User’s Manual M68ICS08RK In-Circuit Simulator — Rev. 1 Technical Reference and Troubleshooting MOTOROLA... - Page 65 0 should never be set to 1, as this interrupts monitor-mode communications. The MON08 pin TGT-PTA0 (J6 pin 7) is never connected to the MCU’s PTA0 pin. It is wired to J3 pin 15, J1 pin M68ICS08RK In-Circuit Simulator — Rev. 1 User’s Manual MOTOROLA Technical Reference and Troubleshooting...
- Page 66 If the clock signal is not present, check to see that a jumper is installed on W5. This selects the RKICS as the source of the OSC1 signal. User’s Manual M68ICS08RK In-Circuit Simulator — Rev. 1 Technical Reference and Troubleshooting MOTOROLA...
- Page 67 TGT-PTB3 pins of the MON08 connector. These signals will be connected by the RKICS to the corresponding pins of the MCU through the corresponding MON08 connector pins — RST, IRQ, PTB0, PTB2, M68ICS08RK In-Circuit Simulator — Rev. 1 User’s Manual MOTOROLA Technical Reference and Troubleshooting...
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Page 68: Parts List
Capacitor, 560 pF, ceramic, COG, AVX Corporation 08055A561KAT2A 50 V Capacitor 47 µF, tantalum, C9, C25 AVX Corporation TPSD476M016R0150 low-ESR, 16 V Diode, zener, 1SMA6.0AT3 Motorola 1SMA6.0AT3 D2, D8 Diode, Schottky, MBRA130 Motorola MBRA130 LED, green, 5 mm Dialight Corp. 521-9173 D4, D5, D6... - Page 69 Inductor, 10 H Murata Electronics LQH1N100K04 Power jack, 2.5 mm CUI Stack PJ-002B Connector, DB9, socket, R/A AMP, Inc. AMP-9726-A Transistor, NPN, MMBT3904 Motorola MMBT3904 Q2, Q4 Transistor, PNP, MMBT3906 Motorola MMBT3906 Q3, Q5 Transistor, PFET, MMBF0201 Motorola MMBF0201 R1, R8, R9, R12, R14, R15, R16, R24, Resistor, 3.3 kΩ, 5%...
- Page 70 Table B-1. RKICS Parts List (Sheet 3 of 3) Reference Description Manufacturer Part Number Designator Fairchild IC, single OR gate NC7SZ32M5 Semiconductor IC, switch mode controller Motorola MC34063AD IC, voltage regulator Linear Technology LT1086CM IC, quad, analog, multiplexer Analog Devices, Inc. ADG774BR IC, RS323-XCVR Linear Technology LTC1386CS...
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Page 71: Board Layout And Schematic Diagrams
Board Layout and Schematic Diagrams B.7 Board Layout and Schematic Diagrams Figure B-1 shows the RKICS board layout and component locations. The RKICS schematic diagrams follow. Figure B-1. M68IC508RK2 Board Layout M68ICS08RK In-Circuit Simulator — Rev. 1 User’s Manual MOTOROLA Technical Reference and Troubleshooting... - Page 72 M o d i f i e d a f t e r F A T a n d M o t o r o l a t e s t i n g R E V I S I O N S N O T E S : Z O N E R E V...
- Page 73 V D D - S W V D D - L V M M B D 9 1 4 V D D - L V V D D V D D R 1 0 R 1 3 1 0 K V D D V D D - L V 1 0 K...
- Page 74 T G T - P T B [ 0 . . 3 ] T G T - P T B [ 0 . . 3 ] S h e e t 5 P T B [ 0 . . 5 ] S h e e t 4 , 5 V D D - L V V D D - S W V D D - S W...
- Page 75 S h e e t 3 , 5 P T B [ 0 . . 5 ] S h e e t 2 , 3 , 5 P T A [ 0 . . 7 ] V D D - L V X U 1 M C 6 8 H C 9 0 8 R K 2 / S S O P P T A 0...
- Page 76 S h e e t 2 , 3 , 4 P T A [ 0 . . 7 ] F I D 1 F I D 2 F I D 3 S h e e t 3 , 4 P T B [ 0 . . 5 ] T G T - P T B 0 T G T - P T A 0 S h e e t 3...
- Page 77 (SWI) instruction for the instruction at that address. In response to the SWI, control is passed to a debugging program. byte — A set of exactly eight binary bits. M68ICS08RK In-Circuit Simulator — Rev. 1.0 User’s Manual MOTOROLA Glossary...
- Page 78 MC68HC908 are A (8-bit accumulator), X (8-bit index register), CCR (condition code register containing the H, I, N, Z, and C bits), SP (stack pointer), and PC (program counter). cycles — See CPU cycles. User’s Manual M68ICS08RK In-Circuit Simulator — Rev. 1.0 Glossary MOTOROLA...
- Page 79 — Instructions are operations that a CPU can perform. Instructions are expressed by programmers as assembly language M68ICS08RK In-Circuit Simulator — Rev. 1.0 User’s Manual MOTOROLA Glossary...
- Page 80 file — A text file containing numbers that represent the binary opcodes and data of a computer program. An object code file can be used to load binary information into a computer system. Motorola uses the S-record file format for object code files.
- Page 81 — Reset is used to force a computer system to a known starting point and to force on-chip peripherals to known starting conditions. S record — A Motorola standard format used for object code files. simulator — A computer program that copies the behavior of a real MCU.
- Page 82 If the values were equal, the result of this subtraction would be 0 so the Z bit would be set; after a load accumulator instruction, the Z bit will be set if the loaded value was $00. User’s Manual M68ICS08RK In-Circuit Simulator — Rev. 1.0 Glossary MOTOROLA...
- Page 83 ........... 17 M68ICS08RK In-Circuit Simulator — Rev. 1.0 User’s Manual MOTOROLA Index...
- Page 84 RKICS power ..........59 User’s Manual M68ICS08RK In-Circuit Simulator — Rev. 1.0 Index MOTOROLA...
- Page 85 MCU PWR LED ......59, 60, 61, 64, 66 M68ICS08RK In-Circuit Simulator — Rev. 1.0 User’s Manual MOTOROLA Index...
- Page 86 RKICS (or ICS08RK software) ....... . 16 User’s Manual M68ICS08RK In-Circuit Simulator — Rev. 1.0 Index MOTOROLA...
- Page 87 ..........16 M68ICS08RK In-Circuit Simulator — Rev. 1.0 User’s Manual MOTOROLA Index...
- Page 88 Index User’s Manual M68ICS08RK In-Circuit Simulator — Rev. 1.0 Index MOTOROLA...
- Page 90 Motorola does not convey any license under its patent rights nor the rights of others. Motorola products are not designed, intended, or authorized for use as components in systems intended for surgical implant into the body, or other applications intended to support or sustain life, or for any other application in which the failure of the Motorola product could create a situation where personal injury or death may occur.