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Technical Reference Manual TLA 700 Series TLA 7QS QuickStart Training Board 070-9716-00 There are no current European directives that apply to this product. This product provides cable and test lead connections to a test object of electronic measuring and test equipment.
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Commercial Computer Software – Restricted Rights clause at FAR 52.227-19, as applicable. Tektronix products are covered by U.S. and foreign patents, issued and pending. Information in this publication supercedes that in all previously published material. Specifications and price change privileges reserved.
General Safety Summary Review the following safety precautions to avoid injury and prevent damage to this product or any products connected to it. To avoid potential hazards, use this product only as specified. Only qualified personnel should perform service procedures. While using this product, you may need to access other parts of the system.
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General Safety Summary Symbols and Terms Terms in this Manual. These terms may appear in this manual: WARNING. Warning statements identify conditions or practices that could result in injury or loss of life. CAUTION. Caution statements identify conditions or practices that could result in damage to this product or other property.
Service Safety Summary Only qualified personnel should perform service procedures. Read this Service Safety Summary and the General Safety Summary before performing any service procedures. Do Not Service Alone. Do not perform internal service or adjustments of this product unless another person capable of rendering first aid and resuscitation is present.
Preface The TLA 7QS Technical Reference Manual is an optional accessory to the TLA 7QS package. It is intended to provide technical and service information for the TLA 7QS training board. How to Use This Document The manual is made up of the following sections: The Getting Started chapter provides a brief overview of the product.
The TLA 700 Series Logic Analyzer User Manual provides basic user information for the TLA 700 Series Logic Analyzers. Use the online help in the TLA 700 Series logic analyzer to obtain operating information and for specific information on windows, menus, and fields within the application.
The embedded programs are designed to send digital and analog signals to the various connectors on the training board. These signals can be used to demonstrate the capabilities of the TLA 700 Series Logic Analyzers.
Getting Started Functional Check The basic operation of the TLA 7QS training board is verified by the power-up diagnostics. The power-up diagnostics run at power-on or when the RESET signal is asserted by pressing the RESET button. To perform a more detailed functional verification of the training board, refer to the Functional Verification Procedures beginning on page 5–1.
Hardware Features This section describes the hardware features of the TLA 7QS training board. It provides information on using the hardware to demonstrate features of logic analyzers and oscilloscopes. Detailed information on individual circuits is provided in the Theory of Operation beginning on page 4–1. Circuit Board Modules The training board can be divided into the following circuit board modules: Microprocessor module...
Hardware Features Microprocessor Interrupts. Four external interrupts are used on the training board: IRQ3*, IRQ5*, IRQ6*, and IRQ7*. You can assert the signals through the push buttons on the training board or through the parallel control port. Microprocessor Parallel Input/Output Port. The microprocessor has a general purpose parallel input/output port (PORTA) that uses the upper eight address lines.
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Hardware Features Figure 2–1 shows a block diagram of the programmable delayed read memory. Read strobe delay shift register 0–125 ns 62 ns/Step Upper byte programmable memory delay Delayed read strobe Shift In Out gen logic register Prog. delay Clockout line Dlyclksel0 Data<8..15>...
Hardware Features Signal Sources Module The signal sources module consists of the following groups of signals that can be used to demonstrate logic analyzer and oscilloscope features: Counter and pattern generator signals Setup & Hold and trigger signals Tapped delay line Burst signal Glitch signal Metastable data and clock signals...
Hardware Features Step Signal. Use the step signal to demonstrate analog bandwidth and triggering of oscilloscopes and logic analyzers. Runt Pulse and Missing Pulse Signal. Use the runt pulse and missing pulse signal to demonstrate oscilloscope pulse triggering features. You can also use it to demonstrate logic analyzer 4 ns counter/timers and time-qualified triggers.
Hardware Features LED Indicators. Two 10-segment LED indicators display bit patterns for various software and hardware demonstrations. The first sixteen LED segments (labeled 0 through 15) represent data bits. Bits 16 and 17 represent the LAPort input and output enable status. Bit 18 indicates whether the external trigger input is enabled.
Hardware Features Standard null modem connection Minimum null modem connection required for the training board Figure 2–2: Null modem connections Table 2–3 shows the connector pinouts for the DB9 and DB25 serial port connectors. Table 2–3: RS-232 connector pinouts Signal Name DB9 pins DB25 pins...
Software Features This section describes software operation, embedded programs, and diagnostics available with the TLA 7QS Training Board. When you first apply power to the the training board, or when you press the Reset button, the training board initializes the 68340 registers, runs the power-on diagnostics, and then starts the normal operation.
Software Features NOTE. You may need to use a null modem to connect the training board to your PC. For information on using a null modem, refer to Serial Port Requirements on page 2–6. Additional menu choices are available that are not used in the stand-alone mode. These choices include downloading an S-record file to user flash memory and starting the SDS (Software Development Systems) target monitor program.
Software Features LITES The Lites program strobes the LED segments from right to left and then left to right. The program also writes the phrase “Making It Happen” to Serial Port B. STOP LITES The Stop Lites program lights specific LEDs in a predetermined sequence. The LEDs are lighted in a sequence to emulate two traffic lights (hence the name Stop Lites).
Software Features WAIT STATE The Wait State program varies the M68340 wait states from zero to three on CS2 and CS3. After starting the program, push the F1 button to select the number of wait states. You can then use a logic analyzer to capture and analyze the impact of the wait states on system performance.
Software Features SETUP/HOLD The Setup/Hold program controls the Setup and Hold circuitry on the training board (J850). The program sends a four bit count pattern to DATA pins 0–3 (J850-1 though J850-4). The same pattern is sent to the QOUT pins 0–3 (J850-5 through J850-8).
Software Features Push the F3 button to count down to select the port lines. Push the F4 button to accept the changes. The three LAPort lines are selected by binary values from the F2 or F3 buttons. The value written to the output is displayed on the LCD as a binary number. For example, to set the LAPort output line 1 high and others low, select the binary value 010.
Software Features LCD User Interface The LCD Interface consists of the liquid crystal display and four buttons on the training board. The UP, DN, RUN, and STOP images on the LCD correspond to the buttons located directly below the display. UP and DN Buttons Pushing either button causes interrupts.
Software Features The interface runs at a baud rate of 9600 with hardware flow control. You should use a terminal emulation program on a PC such as HyperTerminal. The ANSI escape codes provide cursor control. Press an arrow key on the terminal keyboard to move between highlight selections in the menu.
Software Features The second test requires connecting a terminal to Serial Port A (9-pin submini- ture D connector). The test pauses until you connect the cable and then push the Run button to continue. The test string, “Testing serial port A,” is transmitted through the port.
Memory Maps This section provides information on the memory maps for the TLA 7QS Training board. The first part of this section provides information on the memory mapped input and output. The rest of this section lists the actual memory maps. Memory Mapped Input and Output The training board has 2 Mbytes of memory mapped input and output.
Memory Maps Bit 17 represents the LAPort output enable status. The output circuit uses a transparent latch. When the LED is on (low signal), the output is enabled and signal changes on the training board are sent to the output port. When the LED is off, the output data is latched to last transmitted value (unknown at power-on).
Memory Maps Output Control Bits The output control bits register is a 16-bit input register used to assert signals. Register Table 2–6 lists the output control bits and the associated signals. See Figure 2–7 on 2–26 page for memory mapping information. Table 2–6: Output control bits Signal name Function...
Memory Maps Low Counter Pattern The low counter pattern generator data register is a 16-bit write-only register that Generator Data stores a data value in the low counter pattern generator. High Counter Pattern The high counter pattern generator data register is a 16-bit write-only register Generator Data that stores a data value in the high counter pattern generator.
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Memory Maps 00 0000 2 MB User/System SRAM Space $20 0000 2 MB User EEPROM/Flash Space $40 0000 2 MB On Board Memory Space Input/Output 16 MB Address Space Space 24 Address Lines (A0—A23) $60 0000 2 MB System EEPROM/Flash Space $80 0000 8 MB...
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Memory Maps $00 0000 128 K X 16 K 256K SRAM $04 0000 $00 0000 Exception 128 K X 16 K 256K Vectors SRAM $00 03FF Monitor $08 0000 Supervisor Space $00 3FFF Supervisor 512K Unused Stack Pointer Space $00 7FFF User $10 0000 Stack Pointer...
To create programs for the training board you will need the SDS CrossCode C 68K software package from Software Development Systems (the C++ option is not required) and some software tools from Tektronix. You will use these packages to write the code and to download the programs to the training board.
Creating Programs for the Training Board Writing the Program The following procedures provide information on writing the program code for the training board. You may want to refer to Appendix A: Source Code for a sample program. The procedures consist of the following steps: Create the menu entry Include the user header file Create a dummy function...
Creating Programs for the Training Board Write the Code Write your code using normal C or assembly language. You can use any of the functions for the training board, or create your own functions. Refer to Appen- dix A: Source Code for a sample program. You may also want to refer to the code supplied on the floppy disk accompanying this manual.
Creating Programs for the Training Board Writing an Image to the Flash Memory Prepare to download the code into flash memory on the training board using a downloader utility. The downloader utility will extract code bytes and convert them into a Motorola S-record file. Make sure that you use the proper flags to avoid ending up with an extremely large file.
Specifications This chapter contains the specifications for the TLA 7QS Training Board. Within each section, the specifications are arranged in functional groups such as: Microprocessor System Characteristics, Signal Source Characteristics, Hardware Characteristics, Power distribution, Mechanical Characteristics, and Environmental Characteristics. All specifications are warranted unless they are designated typical. Typical characteristics describe typical or average performance and provide useful reference information.
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Specifications Table 3–1: Microprocessor signal characteristics (Cont.) Characteristic Description System reset signal The reset signal is integrated into the M68340 microprocessor and connected to the external button to reset the system. External interrupt requests IRQ3, IRQ4, IRQ6, IRQ7 Memory-mapped functions Chip select decoder One of eight chip select decoders to select memory-mapped functions Input control bits register...
Specifications Table 3–2: Signal source characteristics Characteristic Description Counter/Pattern generator signals Number of counter bits One 32-bit counter or two 16-bit counters Counter clock frequency (typical) 50 MHz Number of pattern generator bits Pattern generator toggle bits Eight four-bit patterns Pattern generator toggle frequency 50 MHz, 10 MHz, 1.25 MHz, and programmable (typical)
Specifications Table 3–2: Signal source characteristics (Cont.) Characteristic Description Runt pulse frequency (typical) 1.6 Hz to 2.5 Hz Missing pulse frequency (typical) 1.6 Hz to 2.5 Hz Staircase signals source Step intervals (typical) 0.5 ms per step Staircase interval (typical) 8.0 ms per staircase Amplitude (typical) 900 mV...
Specifications Table 3–3: Hardware characteristics (Cont.) Characteristic Description LAPort input enable LED One LED connected to the LAPort input control bit. The LED is on when the LAPort input is enabled. Memory mapped LEDs 16 memory mapped LEDs Liquid crystal display Two line by 16 character LCD memory mapped display External interrupt request switches Four interrupt request signal switches for microprocessor signals IRQ3, IRQ4, IRQ6,...
Theory of Operation This chapter provides the theory of operation of the TLA 7QS training board. It provides information on the built-in circuit modules and on the connectors on the training board. Circuit Board Modules The following circuit board modules are discussed in this section: Microprocessor module Signal Sources module User interface module...
127 ns. The time adjustment is fine enough so that it can be calibrated to be just on the threshold of creating a read error. You can use the high resolution (MagniVu) mode of the TLA 700 Series Logic Analyzers to demonstrate and measure small changes in delay adjustments.
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Theory of Operation Table 4–1: Output control bits (Cont.) Signal name Function EXTCLKEN External counter clock enable CNTR16BIT* 16-bit or 32-bit counter select PATCLKSEL0 Pattern generator clock selector Mux bit 0 PATCLKSEL1 Pattern generator clock selector Mux bit 1 LOCNTREN* Low counter count enable LOCNTRSEL* Low counter or pattern select...
Theory of Operation Table 4–2: Pattern generator clock select truth table PATCLKSEL0 PATCLKSEL1 Clock select Sigclk2; Microprocessor timer2 used as clock TSTHD<3>; Setup and hold counter output bit 3 TSTHD<1>; Setup and hold counter output bit 1 CNTRCLK; Counter-pattern generator master clock The Sigclk2 clock is the microprocessor timer2 output which can be pro- grammed to any frequency and duty cycle.
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Theory of Operation Setup and Hold Trigger Signals. The setup and hold signals (schematic 25) are generated by a four-bit counter clocked at a 50 MHz rate. The four bits of the counter connect to four signal ground square pin pairs so they can be measured by a logic analyzer or by an oscilloscope.
Theory of Operation The setup and hold violation counter operates in the following manner. The four-bit counter has a continuous count at 50 MHz. The four output bits and the clock can be measured. However, the clock is skewed in time at a specific counter output bit pattern of 1010.
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Theory of Operation Glitch Signal. The glitch signal (schematic 28) is generated by gating the microprocessor programmable timers. The timers can be changed in frequency and duty cycle. The actual glitch signal is generated by delaying one of the timer signals into an exclusive-or gate with a resistor-capacitor network.
Theory of Operation User Interface Module The user interface module (schematic sheets 8 and 9) provides a means to control and observe the actions of the hardware features on the training board. LCD Display. The main display device is a two by 16 character LCD display. The readout is controlled by software and by the four push-button switches.
Theory of Operation Input and Output Connectors The TLA 7QS Training Board has the following input and output port connec- tors: Two serial ports A logic analyzer control port Two external trigger BNC connectors A background debug mode connector A JTAG connector (pins not installed on board) Power input connectors Bus interface connector Probe interfaces...
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Theory of Operation Figure 4–2: Input and output connector locations 4–10 TLA QuickStart Technical Reference Manual...
Theory of Operation Serial Ports The main serial port, J500, (schematic 18) is a nine-pin subminiature D-connec- tor that provides an RS-232 serial interface for controlling the computer system and for reading program data. This serial port uses the integrated serial port B of the M68340 microprocessor.
Theory of Operation Logic Analyzer Control The logic analyzer control port (schematic 19) is a 25-pin subminiature Port D-connector and provides parallel input and output control signals for monitor- ing and controlling the training board hardware and software. The port is compatible with any version of the standard PC parallel interface port.
Theory of Operation External Trigger BNC Two external trigger BNC connectors (schematic 20) provide input and output Connectors trigger connections. External Trigger Input Signal Connector (J700). This connector is an input for TTL-level signals. The signal connects to the microprocessor interrupt request level 5 input line and is gate-enabled through software control.
The Bus Interface connector, J180, (schematic 11) provides a means for connecting the training board to other test fixtures. The connector is a standard 3 by 32 male receptacle DIN connector. Use a 3 by 32 female connector (Tektronix part number 131–2950–00 or similar) to connect to this connector.
Theory of Operation Table 4–12: Bus interface connector (J180) Row A signal Row B signal Row C signal DATA0 PORTA7 DATA8 DATA1 PORTA6 DATA9 DATA2 PORTA5 DATA10 DATA3 PORTA4 DATA11 DATA4 PORTA3 DATA12 DATA5 PORTA2 DATA13 DATA6 PORTA1 DATA14 DATA7 PORTA0 DATA15 Ground...
This provides connections for 96 data channels and six clock channels. The data channels and clock channels connect to the 68340 microprocessor and the related control lines. The signals are compatible with the Tektronix 68340 microproces- sor control package. The counter and pattern generator signals can be probed with standard logic analyzer probes on two by eight square-pin headers.
Functional Verification Procedures Microprocessor Circuitry Check The following checks verify the functionality of the microprocessor circuitry on the training board. This procedure is based on the microprocessor exercises in the TLA 7QS Training Manual. NOTE. To complete the functional check procedure, it is assumed that the TLA 7QS application software and Microprocessor Analysis software files are installed on the logic analyzer.
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Functional Verification Procedures 2. Use the UP or DN buttons on the training board to select the PATTERN GEN program. 3. Push the RUN button on the training board to start the pattern generator program. 4. On the logic analyzer, restore the default setups (select Default System from the File menu).
Burst pulse Fast edge signal Metastable glitch signal Staircase signal To complete these checks, you will need a 1 GHz analog bandwidth oscilloscope and an oscilloscope probe (Tektronix TDS 684B with a P6345 probe). 5–4 TLA QuickStart Technical Reference Manual...
Functional Verification Procedures Runt Pulse and Missing Perform the followings steps to verify basic functionality of the runt pulse and Pulse Check missing pulse. 1. Set up the vertical input of the oscilloscope to measure a 2 V pulse. 2. Set horizontal controls as follows: Time/Div 100 ns Position...
Functional Verification Procedures 4. Connect the Channel 1 probe to the PULS pin on the training board (J870–5). Connect the probe ground lead to a nearby ground pin. 5. Adjust the trigger level control on the oscilloscope for a positive pulse (the pulse may have some jitter).
Functional Verification Procedures 3. Set up the trigger controls as follows: Type Edge Source Slope Rising Level 220 mV 4. Connect the Channel 1 probe to the EDGE pin on the training board (J870–7). Connect the probe ground lead to a nearby ground pin. 5.
Functional Verification Procedures Staircase Signal Check Perform the followings steps to verify basic functionality of the staircase signal. 1. Set up the vertical input of the oscilloscope to measure a 200 mV signal. Set the position two divisions below the center graticule. 2.
4. Nothing capable of generating or holding a static charge should be allowed on the work station surface. Service Strategy Tektronix provides service to cover repair under warranty as well as other services that may provide a cost-effective answer to your service needs. Warranty Repair Service Tektronix warrants the training board for three months from the date of shipment.
Training Board Of these services, the annual prearranged service offers a particularly cost-effec- tive approach to service for many owners of the TLA 700 series logic analyzers. Self Service Tektronix supports repair to the module level by providing Module Exchange.
CAUTION. Avoid using chemical cleaning agents that might damage the plastics and external labels used on the training board. Use a cloth dampened with water to clean external surfaces. Before using any cleaner, consult your Tektronix Service Center or representative.
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Maintenance If the training board is being shipped to a Tektronix Service Center, enclose the following information: The owner’s address Name and phone number of a contact person Type and serial number of the training board Reason for returning A complete description of the service required Seal the shipping carton with an industrial stapler or strapping tape.
This section contains a list of the electrical components for the TLA 7QS training board. Use this list to identify and order replacement parts. Parts Ordering Information Replacement parts are available through your local Tektronix field office or representative. Changes to Tektronix products are sometimes made to accommodate improved components as they become available and to give you the benefit of the latest improvements.
Chassis-mounted parts have no assembly number prefix, and they are located at the end of the electrical parts list. Tektronix part number Use this part number when ordering replacement parts from Tektronix. 3 and 4 Serial number Column three indicates the serial number at which the part was first effective. Column four indicates the serial number at which the part was discontinued.
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Replaceable Electrical Parts Manufacturers cross index Mfr. code Manufacturer Address City, state, zip code 00779 AMP INC. CUSTOMER SERVICE DEPT HARRISBURG, PA 17105–3608 PO BOX 3608 01295 TEXAS INSTRUMENTS INC SEMICONDUCTOR GROUP DALLAS, TX 75272–5303 13500 N CENTRAL EXPRESSWAY PO BOX 655303 04222 AVX/KYOCERA PO BOX 867...
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76493 BELL INDUSTRIES JW MILLER DIVISION GARDENA, CA 90247–1059 306 E ALONDRA BLVD PO BOX 2859 80009 TEKTRONIX INC 14150 SW KARL BRAUN DR BEAVERTON, OR 97077–0001 PO BOX 500 91637 DALE ELECTRONIC COMPONENTS 1122 23RD ST COLUMBUS, NE 68601...
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Replaceable Electrical Parts Replaceable electrical parts list Component Tektronix Serial no. Serial no. Mfr. number part number effective discont’d Name & description code Mfr. part number 671–3684–00 CIRCUIT BOARD:LA QUICKSTART 80009 671–3684–00 A01C130 283–5353–00 CAP,FXD,CERAMIC:0.1UF,20%,16V,X7R,0603,SMD,T&R 04222 0603YC104MAT2A A01C150 283–5353–00 CAP,FXD,CERAMIC:0.1UF,20%,16V,X7R,0603,SMD,T&R...
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Replaceable Electrical Parts Replaceable electrical parts list (Cont.) Component Tektronix Serial no. Serial no. Mfr. number part number effective discont’d Name & description code Mfr. part number A01C480 283–5353–00 CAP,FXD,CERAMIC:0.1UF,20%,16V,X7R,0603,SMD,T&R 04222 0603YC104MAT2A A01C0481 283–5353–00 CAP,FXD,CERAMIC:0.1UF,20%,16V,X7R,0603,SMD,T&R 04222 0603YC104MAT2A A01C482 283–5353–00 CAP,FXD,CERAMIC:0.1UF,20%,16V,X7R,0603,SMD,T&R...
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Replaceable Electrical Parts Replaceable electrical parts list (Cont.) Component Tektronix Serial no. Serial no. Mfr. number part number effective discont’d Name & description code Mfr. part number A01C0621 283–5353–00 CAP,FXD,CERAMIC:0.1UF,20%,16V,X7R,0603,SMD,T&R 04222 0603YC104MAT2A A01C622 283–5353–00 CAP,FXD,CERAMIC:0.1UF,20%,16V,X7R,0603,SMD,T&R 04222 0603YC104MAT2A A01C650 283–5353–00 CAP,FXD,CERAMIC:0.1UF,20%,16V,X7R,0603,SMD,T&R...
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Replaceable Electrical Parts Replaceable electrical parts list (Cont.) Component Tektronix Serial no. Serial no. Mfr. number part number effective discont’d Name & description code Mfr. part number A01C0214 283–5114–00 CAP,FXD,CERAMIC:MLC,0.1UF,10%,50V,X7R,1206,SMD,8MM 04222 12065C104KAT(1A T&R OR 3A) A01CR120 152–5084–00 DIODE,RECT:SCHTKY,40V,3A,80A 04713 MBRS340T3 IFSM,MBRS340,DO–214AB/SMC,16MM T&R...
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Replaceable Electrical Parts Replaceable electrical parts list (Cont.) Component Tektronix Serial no. Serial no. Mfr. number part number effective discont’d Name & description code Mfr. part number A01J430 131–5267–00 CONN,HDR:PCB,MALE,STR,2 X 40,0.1 CTR,0.235 MLG X 0.110 00779 104326–4 TAIL,30GOLD, HIGH TEMP, A01J440 131–5267–00...
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Replaceable Electrical Parts Replaceable electrical parts list (Cont.) Component Tektronix Serial no. Serial no. Mfr. number part number effective discont’d Name & description code Mfr. part number A01J771 131–4917–00 CONN,HDR:PCB,MALE,STR,1 X 2,0.1 CTR,0.235 MLG X 0.110 00779 104350–1 TAIL,30 GOLD,TUBE,HIGH TEMP, A01J800 131–5999–00...
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Replaceable Electrical Parts Replaceable electrical parts list (Cont.) Component Tektronix Serial no. Serial no. Mfr. number part number effective discont’d Name & description code Mfr. part number A01Q680 151–5000–00 TRANSISTOR,SIG:BIPOLAR,PNP,40V,200MA,250MHZ,AMPLIFIE 04713 MMBT3906LT1 R,MMBT3906L,TO–236/SOT–23,8MM T&R A01R180 321–5425–00 RES,FXD,FILM:4.75K,1%,100V,62.5MW,0603,SMD,T&R 91637 CRCW06034751FR T–1 A01R181 321–5432–00...
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Replaceable Electrical Parts Replaceable electrical parts list (Cont.) Component Tektronix Serial no. Serial no. Mfr. number part number effective discont’d Name & description code Mfr. part number A01R482 321–5425–00 RES,FXD,FILM:4.75K,1%,100V,62.5MW,0603,SMD,T&R 91637 CRCW06034751FR T–1 A01R483 321–5432–00 RES,FXD,FILM:100K,1%,100V,62.5MW,0603,SMD,T&R 91637 CRCW06031003FR T–1 A01R484 321–5432–00...
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Replaceable Electrical Parts Replaceable electrical parts list (Cont.) Component Tektronix Serial no. Serial no. Mfr. number part number effective discont’d Name & description code Mfr. part number A01R584 321–5425–00 RES,FXD,FILM:4.75K,1%,100V,62.5MW,0603,SMD,T&R 91637 CRCW06034751FR T–1 A01R585 321–5415–00 RES,FXD,FILM:0 OHM JUMPER,100V,62MW,0603,SMD,T&R 59124 RM73Z1J000ZT A01R0610 307–5041–01...
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Replaceable Electrical Parts Replaceable electrical parts list (Cont.) Component Tektronix Serial no. Serial no. Mfr. number part number effective discont’d Name & description code Mfr. part number A01R685 321–5454–00 RES,FXD,FILM:332 OHM,1%,100V,62.5MW,0603,SMD,T&R 91637 CRCW0603332RFR T–1 A01R700 321–5445–00 RES,FXD,FILM:49.9 OHM,1%,100V,62.5MW,0603,SMD,T&R 91637 CRCW060349R9FR T–1...
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Replaceable Electrical Parts Replaceable electrical parts list (Cont.) Component Tektronix Serial no. Serial no. Mfr. number part number effective discont’d Name & description code Mfr. part number A01U0270 156–6151–01 IC,MEMORY:CMOS,SRAM,128K X 62786 HM628128LFP–10S 8,100NS,15UA,OE,431000,SO32.440,T&R A01U271 156–6663–00 IC,MEMORY:CMOS,EPROM,128K X 8,120NS,5V 34335 AM29F010–120JC...
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Replaceable Electrical Parts Replaceable electrical parts list (Cont.) Component Tektronix Serial no. Serial no. Mfr. number part number effective discont’d Name & description code Mfr. part number A01U0570 156–5085–01 IC,DIGITAL:HCTCMOS,GATE,QUAD 2–INPUT 04713 MC74HCT32ADR2 OR,74HCT32,SO14.150,16MM T&R A01U0571 156–5085–01 IC,DIGITAL:HCTCMOS,GATE,QUAD 2–INPUT 04713 MC74HCT32ADR2 OR,74HCT32,SO14.150,16MM T&R...
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Replaceable Electrical Parts Replaceable electrical parts list (Cont.) Component Tektronix Serial no. Serial no. Mfr. number part number effective discont’d Name & description code Mfr. part number A01U810 156–5510–00 IC,DIGITAL:FTTL,COUNTER,SYNCH 4–BIT UP/DOWN 01295 SN74F169D BINARY,PRESET,74F169,SO16.150 A01U0811 156–5510–00 IC,DIGITAL:FTTL,COUNTER,SYNCH 4–BIT UP/DOWN...
The circuit board illustration appears only once; its lookup table lists the diagram number of all diagrams on which the circuitry appears. Other standards used in the preparation of diagrams by Tektronix, Inc., include the following: Some of the circuit board component location illustrations are expanded and divided into several parts to make it easier for you to locate small components.
This section contains a list of the replaceable mechanical components for the TLA 7QS training board. Use this list to identify and order replacement parts. Parts Ordering Information Replacement parts are available through your local Tektronix field office or representative. Changes to Tektronix products are sometimes made to accommodate improved components as they become available and to give you the benefit of the latest improvements.
Items in this section are referenced by figure and index numbers to the exploded view illustrations that follow. Tektronix part number Use this part number when ordering replacement parts from Tektronix. 3 and 4 Serial number Column three indicates the serial number at which the part was first effective. Column four indicates the serial number at which the part was discontinued.
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910 PAGE AVE 73743 FISCHER SPECIAL MFG CO 111 INDUSTRIAL RD COLD SPRINGS, KY 41076 PO BOX 76500 80009 TEKTRONIX INC 14150 SW KARL BRAUN DR BEAVERTON, OR 97077–0001 PO BOX 500 85480 BRADY USA NAMEPLATE DIVISION HILLSBOROUGH, NC 27278...
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Replaceable Mechanical Parts Replaceable parts list Fig. & Tektronix Serial no. Serial no. index part number effective discont’d Name & description Mfr. code Mfr. part number number 8–1–1 671–3684–00 CIRCUIT BOARD:LA QUICKSTART 80009 671–3684–00 – 334–5026–00 MARKER,IDENT:MKD BLANK 85480 ORDER BY DESCR –2...
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Replaceable Mechanical Parts Replaceable parts list (Cont.) Fig. & Tektronix Serial no. Serial no. index part number effective discont’d Name & description Mfr. code Mfr. part number number 8–1–20 131–3358–00 CONN,HDR:PCB,MALE,RTANG,2 X 5,0.1 CTR,0.390 53387 2510–5002UB MLG X 0.112 TAIL,0.33 H,SHRD/4 SIDES,MIL PLZ (J200, J600) –21...
Appendix A: Source Code This appendix contains information on the source code available with the standard training board as it is shipped from the factory. System Source Code Files Table A–1 lists some of the system source code files available with the TLA 7QS software.
Appendix A: Source Code Table A–1: TLA 7QS System software files (Cont.) File Description Timer.s Assembly language to configure the 68340 timers Mongoose.a Precompiled ROM portion of the SDS target monitor Mongoose.obj Firmware object file Sample programs The following programs are included with this manual to provide examples of creating user programs to work with the training board.
Appendix A: Source Code build.bat This build.bat file is an MSDOS batch file that will compile, link and prepare for download the sample C program named User.c. A–3 TLA QuickStart Technical Reference Manual...
Appendix A: Source Code combine.spc This combine.spc file is a linker specification file that will map partitions and regions to specific memory locations that match the requirements for the training board. For more information, refer to the SDS Linker documentation. A–4 TLA QuickStart Technical Reference Manual...