Header Board Specification

Transcription

1 Header Board Specification INTRODUCTION This document contains information about MPLAB ICD 2 in-circuit debugger and MPLAB REAL ICE in-circuit emulator header boards, which provide in-circuit debugging and/or emulating capabilities for specific Microchip devices. A special ICD or ICE device is connected to a header board to be used with the debugger or emulator. This device is mounted on the top of a header and its signals are routed to the debugger or emulator connector. On the bottom of the header is a socket that is used to connect to the target board. For an example connection, see Figure. FIGURE : MODULE CONNECTION WITH HEADER MPLAB ICD 2 Module or MPLAB REAL ICE In-Circuit Emulator Module *Number of pins is determined by -ICD/-ICE device used. **Number of stand-off pins is determined by Header used. -ICD or -ICE Device* Power In Header Board J2 P J Jumpers Stand-off Connector** Target Socket Target Application Special ICD/ICE versions of selected devices are needed to provide one or more of the following: the built-in debug circuitry that a device may lack additional pins for the clock, data and MCLR functions required, so regular pins do not have to be forfieted dedicated program/data memory for in-circuit debug or emulation These special device versions are labeled with the appropriate suffix (i.e., either Device-ICD or Device-ICE). In general, ICD devices are designed for MPLAB ICD 2 debugger use and ICE devices are designed for MPLAB REAL ICE emulator use. However, ICD devices may be used with the MPLAB REAL ICE emulator and ICE devices may be used with the MPLAB ICD 2 debugger, but will provide only basic ICD functionality Microchip Technology Inc. DS5292N-page

2 Header Board Specification GENERAL HEADER SETUP To set up a header board:. If the ICD/ICE device is not soldered onto the header, plug the device into the socket on the top of the header. 2. Set any jumpers or switches to determine device functionality/selection as specified for that header. HEADER CONNECTION TO THE DEBUGGER/EMULATOR AND TARGET Connect the modular interface cable between the MPLAB ICD 2 debugger and the header boardor. For MPLAB REAL ICE in-circuit emulator connections, consult the emualtor documentation. The header may be connected to the target board as follows: PDIP header socket to PDIP target socket with a stand-off (male-to-male connector) Header socket to plug on the target board Header socket to target socket with a transition socket (see the Transition Socket Specification, DS594) PROGRAMMING NON-ICD/ICE DEVICES CALIBRATION BITS PERFORMANCE ISSUES The header board can only program the ICD/ICE device, not the regular device. To program non-icd/ice devices, use the Universal Programming Module (AC62049) or design a modular interface connector on the target. See the appropriate specification for connections. For the most up-to-date device programming specifications, see the Microchip website ( The calibration bits for the band gap and internal oscillator are always preserved to their factory settings. The PIC MCU devices do not support partial program memory erase; therefore, users may experience slower performance than with other devices. DS5292N-page Microchip Technology Inc.

3 Header Board Specification REFERENCES Please consult the following resources, as needed: MPLAB ICD 2 - MPLAB ICD 2 In-Circuit Debugger User s Guide (DS5) - MPLAB ICD 2 Help - Readme for MPLAB ICD 2 MPLAB REAL ICE In-Circuit Emulator - MPLAB REAL ICE In-Circuit Emulator User s Guide (DS566) - MPLAB REAL ICE Help - Readme for MPLAB REAL ICE MPLAB IDE - MPLAB IDE, Editor and Simulator User's Guide (DS559) - MPLAB IDE Help - Readme for MPLAB IDE 2007 Microchip Technology Inc. DS5292N-page

4 Header Board Specification NOTES: DS5292N-page Microchip Technology Inc.

5 Headers for ICD Devices INTRODUCTION Some devices have no built-in debug circuitry. Therefore, special ICD versions of these devices are required for MPLAB ICD 2 operation. Other devices have built-in debug circuitry and do not require a header to use MPLAB ICD 2. However, some pins and memory must be used to support the ICD function. Therefore, for some of these devices, special ICD versions offering additional pins (and sometimes memory) are available to provide more transparent debugging capabilities. Currently-available headers and their associated ICD devices/supported devices are shown below. TABLE : HEADERS ICD DEVICES Device Header Part Number ICD Device Used Pin Count Max PIC0F200/2/4/6 AC62059 PIC6F505-ICD 4 5.5V PIC0F220/2 AC62070 PIC6F506-ICD 4 5.5V PIC2F508/509 AC62059 PIC6F505-ICD 4 5.5V PIC2F50 AC62070 PIC6F506-ICD 4 5.5V PIC2F629 AC62050 PIC2F675-ICD () 8 5.5V PIC2F65 AC62057 PIC6F66-ICD 4 5.5V PIC2F675 AC62050 PIC2F675-ICD () 8 5.5V PIC2F68 AC62058 PIC2F68-ICD 8 5.5V PIC6F505 AC62059 PIC6F505-ICD 4 5.5V PIC6F506 AC62070 PIC6F506-ICD 4 5.5V PIC6F627A/628A AC6205 PIC6F648A-ICD () 8 5.5V PIC6F60 AC62052 PIC6F676-ICD () 4 5.5V PIC6F6 AC6206 PIC6F690-ICD V PIC6F66 AC62057 PIC6F66-ICD 4 5.5V PIC6F69 (Dual die) AC62066 PIC6F66-ICD V PIC6F648A AC6205 PIC6F648A-ICD () 8 5.5V PIC6F676 AC62052 PIC6F676-ICD () 4 5.5V PIC6F677 AC6206 PIC6F690-ICD V PIC6F684 AC62055 PIC6F684-ICD 4 5.5V PIC6F685/687 AC6206 PIC6F690-ICD V PIC6F688 AC62056 PIC6F688-ICD 4 5.5V PIC6F689/690 AC6206 PIC6F690-ICD V 2007 Microchip Technology Inc. DS5292N-page 5

6 Headers for ICD Devices TABLE : HEADERS ICD DEVICES (CON T) Device Header Part Number ICD Device Used Pin Count Max PIC6F76 AC62054 PIC6F76-ICD 8 5.5V PIC6F785/HV785 AC62060 PIC6F785-ICD V PIC8F20/0 AC62078 PIC8F0-ICD 8/20/28 5.5V () These devices cannot be programmed or read using MPLAB ICD 2 while GP/RA is high (VIH). Move circuitry that makes GP/RA high to another I/O pin during development. See device programming specifications for more information. ICD HEADER SETUP From the table in the previous section, determine the appropriate header for your device. AC62050, AC62052, AC62055, AC62056, AC62057, AC62058 For these headers, device peripherals need to be selected by setting jumper J to the appropriate position. This will have the effect of selecting the device. Header Jumper J Function Device Selected AC A/D Disabled PIC2F629-2 A/D Enabled PIC2F675 AC A/D Disabled PIC6F60-2 A/D Enabled PIC6F676 AC62055 Don t care N/A PIC6F684 AC62056 Don t care N/A PIC6F688 AC PORTC, Comparator 2 Disabled PIC2F65-2 PORTC, Comparator 2 Enabled PIC6F66 AC A/D Enabled PIC2F68 AC6205 For this headers, there are no jumpers/switches. The device with the most program memory is always selected. If PIC6F627A or PIC6F628A devices are selected for MPLAB ICD 2 development in MPLAB IDE, the warning ICDWarn0020: Invalid target device id may be received in the build window and as a dialog. The reason is the PIC6F648A-ICD device supports PIC6F648A, PIC6F627A and PIC6F628A, but only reports the device ID for the PIC6F648A. Ignore this warning or disable it under the Warnings tab on the ICD Programming dialog. AC62054 This header supports one device (PIC6F76) so there are no jumpers or switches. AC62059, AC62070 The ICD devices on these headers are specifically designed to select a device without the use of additional jumpers or switches. DS5292N-page Microchip Technology Inc.

7 Headers for ICD Devices AC62060 For the PIC6F pin header, you will need to connect the jumper J2 to enable the shunt regulator. Device Device Type Jumper Setting Function PIC6F785 F -2 Disable shunt regulator PIC6HV785 HV 2- Enable shunt regulator AC6206 For the PIC6F pin header, you will need to set the S switches (Figure ) to enable peripherals and choose devices (Table 2). FIGURE : S SWITCH HARDWARE ON ENABLE ADC 4kPFM USART SSP ECCP Switch configuration at left shows all peripherals enabled, which is the setting to select the PIC6F690 device. S TABLE 2: S SWITCH DEVICE SELECTION Switches Device ADC 4k PFM USART SSP ECCP PIC6F6 0 0* PIC6F677 0** 0 0 PIC6F PIC6F687 0** 0 PIC6F689 0 PIC6F690 Legend: = Enabled 0 = Disabled * = k PFM ** = 2k PFM AC62066 For the PIC6F69 20-pin header, you will need to connect the jumper J as specified below. Tool Jumper Setting Function MPLAB ICE Run/program as regular device MPLAB ICD 2 2- Run/program as ICD device In addition to being used with MPLAB ICD 2, this header is used with the PCM6YM0 processor module to emulate a PIC6F69 on the MPLAB ICE 2000 in-circuit emulator. Plug the end of the processor module into the header, and then plug the header into the transition socket or directly onto the target board Microchip Technology Inc. DS5292N-page 7

8 Headers for ICD Devices AC62078 This header board can be used with the following targets:. Customer target board for PIC8F20/0 devices. The target board should have an 8-pin DIP socket to connect to the 8-pin DIP socket on the header board. 2. PICDEM MC motor control demo board. Use the 28-pin DIP socket on both boards to mount the header board on to the PICDEM MC board.. PICDEM MC LV motor control demo board. Use the 28-pin DIP socket on both boards to mount the header board on to the PICDEM MC LV board. The following sections detail the configuration of the jumpers on the header board for use with the above-mentioned boards. For more details, refer to the Schematics section of this document. CUSTOMER TARGET BOARD The default configuration is to remove all jumpers. S is not populated and should not be used. After the header board is set up, do the following:. Connect the header to the target board. 2. Power the target board. You should see the red LED on the header board turn on.. Connect the MPLAB ICD 2 to the header board. 4. Use MPLAB IDE and MPLAB ICD 2 to develop your application. PICDEM MC/MC LV MOTOR CONTROL DEMO BOARDS To run a BLDC motor on the PICDEM MC board or PICDEM MC LV board using the supplied firmware, use the following jumper setup: Jumper Jumper Setting Jumper Jumper Setting J 2- JP Open J2 2- JP2 Open J 2- JP Open J5 2- J6-2 J7-2 S is not populated and should not be used. After the header board is set up, do the following:. Connect the header to the PICDEM MC/MC LV target board. 2. Power the target board. You should see the red LED on the header board turn on.. Connect the MPLAB ICD 2 to the header board. 4. Program the part with the demo code. 5. Run the program. 6. Press and release switch S2 on the target board to toggle the direction of rotation of the motor. 7. Press and release switch S on the target board to toggle between run and stop the motor. 8. If the motor stops while reversing from a high speed, there could be a overcurrent condition detected by the system. Reset the system to run the program again. DS5292N-page Microchip Technology Inc.

9 Headers for ICD Devices ICD HEADER DIMENSIONS The table below lists the dimensions for each ICD header board. Dimensions are design values in inches. TABLE : HEADER DIMENSIONS Header Part Number Length Width Height AC AC AC AC AC AC AC AC AC AC AC AC AC AC If the length and/or width of the header board is too large a footprint for the target board, consider using stand-offs, transition sockets or other extenders in the header connection socket to raise the header above the target Microchip Technology Inc. DS5292N-page 9

10 Headers for ICD Devices ICD HEADER SCHEMATICS The following schematics show header electrical connections. FIGURE 2: AC62050, AC62058 (8-PIN) ENABLE ICDMCLR ICDCLK ICDDATA 4 2 JP ICD Device ICD NC To Tool Connector :Red, VSS:Blue, ICDCLK:Yellow, ICDDATA:Green, ICDMCLR:Purple FIGURE : AC62052, AC62055, AC62056, AC62057, AC62059, AC62070 (4-PIN) 2 JP ENABLE 2 ICDMCLR ICDCLK ICDDATA ICD Device ICD NC To Tool Connector :Red, VSS:Blue, ICDCLK:Yellow, ICDDATA:Green, ICDMCLR:Purple DS5292N-page Microchip Technology Inc.

11 Headers for ICD Devices FIGURE 4: AC6205, AC62054 (8-PIN) ICDMCLR 4 ICD ICD Device 8 7 ICDCLK 6 5 ICDDATA To Tool Connector :Red, VSS:Blue, ICDCLK:Yellow, ICDDATA:Green, ICDMCLR:Purple FIGURE 5: AC62060 (20-PIN) 2 JP SHNTREG ICDMCLR PIC6F785-ICD 28 ICDCLK 27 ICDDATA 26 VSS ICD NC 6 NC NC 5 To Tool Connector :Red, VSS:Blue, ICDCLK:Yellow, ICDDATA:Green, ICDMCLR:Purple 2007 Microchip Technology Inc. DS5292N-page

12 Headers for ICD Devices FIGURE 6: AC6206 (20-PIN) S ON ENECCP ENSSP ENUSART ICDMCLR ICDCLK ICDDATA ICD ENPMF4K ENADC PIC6F690-ICD To Tool Connector :Red, VSS:Blue, ICDCLK:Yellow, ICDDATA:Green, ICDMCLR:Purple FIGURE 7: AC62066 (20-PIN) JP ICDMCLR PIC6F66-ICD ICDCLK ICDDATA ICD NC 2 To Tool Connector :Red, VSS:Blue, ICDCLK:Yellow, ICDDATA:Green, ICDMCLR:Purple DS5292N-page Microchip Technology Inc.

13 Headers for ICD Devices FIGURE 8: AC62078 PART J VREF+ IMOTOR RA4 RA RA0 RB RB2 RST FLTA J2 RA4/AN2/VREF+ RA/AN/INT/KBI RA0/AN0/INT0/CMP0 RB/INT/CMP RB2/INT2/CMP2 0k 0. RC0 TX k J6 MCLR ICRST GND GND RA A MCLR/Vpp/RA5 ICRST/ICVpp U PIC8F0-ICD RA7/OSC/FLTA RA6/OSC2/AN A RB7/PMW5/PGD RA2/TX/RX RB6/PMW4/PGC RA7 RA6 PGD PGC J J5 FLTA OSC IMOTOR OSC2 RA/RX/DT RB0/PWM0 RB/PWM ICCK/ICPGC RB4/PWM2 RB5/PWM ICDT/ICPGD RC2 J7 RA RB0 RB ICCK RB4 RB5 ICDT RX RA0 RB RB2 JP JP2 JP 00k 00k 00k 0. 00k VREF+ P P2 GND /A:Red, VSS/AVSS:Blue, ICCK:Yellow, ICDT:Green, ICRST:Purple 2007 Microchip Technology Inc. DS5292N-page

14 Headers for ICD Devices FIGURE 9: AC62078 PART 2 PICDEM MC/MC LV Connector RST IMOTOR RA RA0 RB RB2 VSS OSC OSC2 RC0 FLTA RC2 MCLR RB RA0 RB RA RA2 RA RA4 A U2 RB5 RB4 RB RB2 RB AVSS OSC OSC2 RB0 VSS RC0 RC RC7 RC6 8 7 RC2 RC5 6 4 RC RC4 5 RB6 RB7 RB5 RB4 RB RB0 VSS RX TX Generic Target Connector RA0 RA RA4 MCLR VSS RA2 RA RB0 RB RA0/AN0 RA/AN RA4/AN2 MCLR/VPP/FLTA VSS/AVSS RA2/TX/CK RA/RX/DT RB0/PWM0 RB/PWM U RB/INT RB2/INT2 RA7/OSC RA6/OSC2 /A RB7/PWM5/PGD RB6/PWM4/PGC RB5/PWM RB4/PWM RB RB2 RA7 RA6 RB7 RB6 RB5 RB4 /A:Red, VSS/AVSS:Blue, ICCK:Yellow, ICDT:Green, ICRST:Purple DS5292N-page Microchip Technology Inc.

15 Headers for ICE Devices INTRODUCTION Devices that have built-in emulator circuitry do not require a header to use the MPLAB REAL ICE in-circuit emulator. However, some pins and memory must be used to support the ICE function. Special ICE versions offering additional pins, memory and emulator functions can be used to provide superior debugging/emulating capabilities. Currently-available headers and their associated ICE devices/supported devices are shown below. TABLE : HEADER TYPES ICE DEVICES Device PIC8F24J0 PIC8F25J0 PIC8LF24J0 PIC8LF25J0 PIC8F44J0 PIC8F45J0 PIC8LF44J0 PIC8LF45J0 PIC8F44J0 PIC8F45J0 PIC8LF44J0 PIC8LF45J0 PIC8F65J0 PIC8F65J5 PIC8F66J0 PIC8F66J5 PIC8F67J0 PIC8F85J0 PIC8F85J5 PIC8F86J0 PIC8F86J5 PIC8F87J0 PIC8F66J60 PIC8F66J65 PIC8F67J60 PIC8F86J60 PIC8F86J65 PIC8F87J60 PIC8F96J60 PIC8F96J65 PIC8F97J60 Header Part Number ICE Device Used Pin Count Max AC62067 PIC8F45J0-ICE 28/40.6V.6V ().6V.6V () AC62074 PIC8F45J0-ICE 44.6V.6V () AC62062 PIC8F87J0-ICE 64/80.6V AC62064 PIC8F97J60-ICE 64/80/00.6V () LF devices require two voltages, where Vdd Max =.6V and Vddcore Max = 2.75V 2007 Microchip Technology Inc. DS5292N-page 5

16 Headers for ICE Devices ICE HEADER SETUP From the table in the previous section, determine the appropriate header for your device. AC62067, AC62074 For these header, you will need to connect jumpers J2 and J to select between the LF and F versions of devices. Device Device Type Jumper J2 Jumper J Function PIC8LFXXJ0 LF -2-2 Disable voltage regulator* PIC8FXXJ0 F 2-2- Enable voltage regulator * core must be supplied externally. AC62062 For this header, there are no jumpers/switches. MPLAB IDE will use its selected device to choose the correct device to emulate. Test points are available on this header to check the following:, core and ground. CAUTION This header cannot be plugged directly into the PICDEM HPC Explorer Board or device damage will result. The PICDEM HPC Explorer Board is 5V, whereas the ICD device on the header is.6v max. Therefore, modification to the demo board is necessary before the header can be used.. Switch S should be set to ICE. 2. Jumper J2 must be connected as shown in Figure to modify the operating voltage. See demo board documentation for more information. FIGURE : DEMO BOARD J2 CONNECTIONS J2 +5V ADJ VIN pin R For V =.V: R =.8 kω (%) AC62064 For this header, there are no jumpers/switches. MPLAB IDE will use its selected device to choose the correct device to emulate. Test points are available on this header to check the following:, core and ground. DS5292N-page Microchip Technology Inc.

17 Headers for ICE Devices ICE HEADER DIMENSIONS The table below lists the dimensions for each ICE header board. Dimensions are design values in inches. TABLE 2: HEADER DIMENSIONS Header Part Number Length Width Height AC AC AC AC If the length and/or width of the header board is too large a footprint for the target board, consider using stand-offs, transition sockets or other extenders in the header connection socket to raise the header above the target Microchip Technology Inc. DS5292N-page 7

18 Headers for ICE Devices ICE HEADER SCHEMATICS The following schematics show header electrical connections. FIGURE 2: AC62067, AC62074 JP core A A core ICCK ICDT PIC8F45J0-ICE 96 ENICPORT A DISVREG ICRST ENICPORT = Dedicated ICD JP Max =.6V To Tool Connector /A:Red, VSS/AVSS:Blue, ICCK:Yellow, ICDT:Green, ICRST:Purple FIGURE : AC62062 TP TP TP core ICCK ICDT PIC8F87J0-ICE ENICPORT ICRST Max =.6V To Tool Connector /core:red, VSS:Blue, ICCK:Yellow, ICDT:Green, ICRST:Purple DS5292N-page Microchip Technology Inc.

19 Headers for ICE Devices FIGURE 4: AC62064 TP TP TP core ICCK ICDT PIC8F97J60-ICE 96 ENICPORT ICRST Max =.6V To Tool Connector /core:red, VSS:Blue, ICCK:Yellow, ICDT:Green, ICRST:Purple 2007 Microchip Technology Inc. DS5292N-page 9

20 Headers for ICE Devices NOTES: DS5292N-page Microchip Technology Inc.

21 Header Board Specification APPENDIX A: REVISION HISTORY A. Revision N (March 2007) Added Appendix A: Revision History Updated document to reflect support of additional tools Additional minor corrections throughout document text 2007 Microchip Technology Inc. DS5292N-page 2

22 Header Board Specification NOTES: DS5292N-page Microchip Technology Inc.

23 HEADER BOARD SPECIFICATION Index A AC , 6, 9, 0 AC , 6, 9, 0 AC , 6, 9, AC , 9, AC , 6, 9, 0 AC , 6, 9, 0 AC , 6, 9, 0 AC , 6, 9, 0 AC , 6, 9, 0 AC , 7, 9, AC , 7, 9, 2 AC , 7, 8 AC , 6, 7, 9 AC , 7, 9, 2 AC , 6, 7, 8 AC , 6, 9, 0 AC , 6, 7, 8 AC , 8, 9, Additional Information... C Calibration Bits... 2 Connect the Header and MPLAB ICD Connection, Module to Header... J Jumper Settings...6, 7, 6 M MPLAB ICE P PCM6YM Performance... 2 PIC0F PIC0F PIC0F PIC0F PIC0F PIC0F PIC2F PIC2F PIC2F PIC2F , 6 PIC2F65...5, 6 PIC2F , 6 PIC2F68...5, 6 PIC6F PIC6F PIC6F627A...5, 6 PIC6F628A...5, 6 PIC6F , 6 PIC6F6... 5, 7 PIC6F , 6 PIC6F , 7 PIC6F648A... 5, 6 PIC6F , 6 PIC6F , 7 PIC6F , 6 PIC6F , 7 PIC6F , 7 PIC6F , 6 PIC6F , 7 PIC6F , 7 PIC6F PIC6F , 7 PIC6HV , 7 PIC8F , 8 PIC8F0... 6, 8 PIC8F24J PIC8F25J0... 5, 6 PIC8F44J PIC8F45J0... 5, 6 PIC8F65J PIC8F65J PIC8F66J PIC8F66J PIC8F66J PIC8F66J PIC8F67J PIC8F67J PIC8F85J PIC8F85J PIC8F86J PIC8F86J PIC8F86J PIC8F86J PIC8F87J PIC8F87J PIC8F96J PIC8F96J PIC8F97J PIC8LF24J PIC8LF25J0... 5, 6 PIC8LF44J PIC8LF45J0... 5, 6 PICDEM HPC Explorer Board... 6 Programming Non-ICD Devices Microchip Technology Inc. DS5292N-page 2

24 Header Board Specification S Schematics 4-Pin /20/28-Pin... 8-Pin Pin..., 2 28/40/44-Pin /80/00-Pin /80-Pin Pin... 0 Set Up the Header Board... 2 Switch Settings... 7 T Transition Socket... 2 V Max 2.75V V V... 5 DS5292N-page Microchip Technology Inc.

25 Note the following details of the code protection feature on Microchip devices: Microchip products meet the specification contained in their particular Microchip Data Sheet. Microchip believes that its family of products is one of the most secure families of its kind on the market today, when used in the intended manner and under normal conditions. There are dishonest and possibly illegal methods used to breach the code protection feature. All of these methods, to our knowledge, require using the Microchip products in a manner outside the operating specifications contained in Microchip s Data Sheets. Most likely, the person doing so is engaged in theft of intellectual property. Microchip is willing to work with the customer who is concerned about the integrity of their code. Neither Microchip nor any other semiconductor manufacturer can guarantee the security of their code. Code protection does not mean that we are guaranteeing the product as unbreakable. Code protection is constantly evolving. We at Microchip are committed to continuously improving the code protection features of our products. Attempts to break Microchip s code protection feature may be a violation of the Digital Millennium Copyright Act. If such acts allow unauthorized access to your software or other copyrighted work, you may have a right to sue for relief under that Act. Information contained in this publication regarding device applications and the like is provided only for your convenience and may be superseded by updates. It is your responsibility to ensure that your application meets with your specifications. MICROCHIP MAKES NO REPRESENTATIONS OR WARRANTIES OF ANY KIND WHETHER EXPRESS OR IMPLIED, WRITTEN OR ORAL, STATUTORY OR OTHERWISE, RELATED TO THE INFORMATION, INCLUDING BUT NOT LIMITED TO ITS CONDITION, QUALITY, PERFORMANCE, MERCHANTABILITY OR FITNESS FOR PURPOSE. Microchip disclaims all liability arising from this information and its use. Use of Microchip devices in life support and/or safety applications is entirely at the buyer s risk, and the buyer agrees to defend, indemnify and hold harmless Microchip from any and all damages, claims, suits, or expenses resulting from such use. No licenses are conveyed, implicitly or otherwise, under any Microchip intellectual property rights. Trademarks The Microchip name and logo, the Microchip logo, Accuron, dspic, KEELOQ, KEELOQ logo, microid, MPLAB, PIC, PICmicro, PICSTART, PRO MATE, PowerSmart, rfpic, and SmartShunt are registered trademarks of Microchip Technology Incorporated in the U.S.A. and other countries. AmpLab, FilterLab, Linear Active Thermistor, Migratable Memory, MXDEV, MXLAB, PS logo, SEEVAL, SmartSensor and The Embedded Control Solutions Company are registered trademarks of Microchip Technology Incorporated in the U.S.A. Analog-for-the-Digital Age, Application Maestro, CodeGuard, dspicdem, dspicdem.net, dspicworks, ECAN, ECONOMONITOR, FanSense, FlexROM, fuzzylab, In-Circuit Serial Programming, ICSP, ICEPIC, Mindi, MiWi, MPASM, MPLAB Certified logo, MPLIB, MPLINK, PICkit, PICDEM, PICDEM.net, PICLAB, PICtail, PowerCal, PowerInfo, PowerMate, PowerTool, REAL ICE, rflab, rfpicdem, Select Mode, Smart Serial, SmartTel, Total Endurance, UNI/O, WiperLock and ZENA are trademarks of Microchip Technology Incorporated in the U.S.A. and other countries. SQTP is a service mark of Microchip Technology Incorporated in the U.S.A. All other trademarks mentioned herein are property of their respective companies. 2007, Microchip Technology Incorporated, Printed in the U.S.A., All Rights Reserved. Printed on recycled paper. Microchip received ISO/TS-6949:2002 certification for its worldwide headquarters, design and wafer fabrication facilities in Chandler and Tempe, Arizona, Gresham, Oregon and Mountain View, California. The Company s quality system processes and procedures are for its PIC MCUs and dspic DSCs, KEELOQ code hopping devices, Serial EEPROMs, microperipherals, nonvolatile memory and analog products. In addition, Microchip s quality system for the design and manufacture of development systems is ISO 900:2000 certified Microchip Technology Inc. DS5292N-page 25

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27 Mouser Electronics Authorized Distributor Click to View Pricing, Inventory, Delivery & Lifecycle Information: Microchip: AC62074