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CP-RIO6-90

ID 20955, Rev. 05

Page A - 1

CP690HS

CP-RIO6-90

P R E L I M I N A R Y

Appendix         

A

Summary of Contents for CP690HS

Page 1: ...If it s embedded it s Kontron User Guide P R E L I M I N A R Y CP690HS Active PMC Carrier Board for CompactPCI Applications Doc ID 20955 Rev 05 July 16 2009...

Page 2: ...rmation has been carefully checked and is believed to be accurate however no responsibility is assumed for inaccuracies Kontron and the Kontron logo and all other trademarks or registered trademarks a...

Page 3: ...eral Instructions on Usage xiv Two Year Warranty xv 1 Introduction 1 3 1 1 Overview 1 3 1 2 Optional Modules 1 4 1 2 1 CP RIO6 90 Dual PIM Rear I O Transition Module 1 4 1 3 System Relevant Informatio...

Page 4: ...System Controller 5 5 5 1 1 3 The Hot Swap Board 5 5 5 1 1 4 Software and Operating System 5 5 5 2 Design Implementation on CP690HS 5 6 5 2 1 Power Ramping 5 6 5 2 2 Precharge 5 6 5 2 3 Handle Switch...

Page 5: ...Allowable Power Consumption of PMC Modules 6 7 A 1 Introduction A 3 A 2 Functional Block Diagram A 3 A 3 CP RIO6 90 Front Panel A 4 A 4 CP RIO6 90 Board Layout A 5 A 5 Module Interfaces A 6 A 5 1 PIM...

Page 6: ...Preface CP690HS Page vi ID 20955 Rev 05 P R E L I M I N A R Y This page has been intentionally left blank...

Page 7: ...1 Jumpers Settings 4 3 5 1 Hot Swap Control and Status Register Statemachine 5 6 5 2 Hot Swap Register Bits 5 7 5 4 GPIO Input Data Register Offset 67h 5 9 5 3 GPIO Output Enable Control Register Offs...

Page 8: ...Preface CP690HS Page viii ID 20955 Rev 05 P R E L I M I N A R Y This page has been intentionally left blank...

Page 9: ...Connectors J1 J2 J3 and J5 2 7 3 1 Installation Diagram 3 6 4 1 Jumpers on the CP690HS 4 3 5 1 Illustration of Staggered Pinning on the Hot Swap Backplane 5 4 5 2 Hot Swap State Machine 5 8 6 1 Voltag...

Page 10: ...Preface CP690HS Page x ID 20955 Rev 05 P R E L I M I N A R Y This page has been intentionally left blank...

Page 11: ...any circuit product or example shown in this document Kontron reserves the right to change modify or improve this document or the product described herein as seen fit by Kontron without further notic...

Page 12: ...ensitive Device This symbol and title inform that electronic boards and their compo nents are sensitive to static electricity Therefore care must be taken during all handling operations and inspection...

Page 13: ...s This is most easily done by touching a metal part of your system housing It is particularly important to observe standard anti static precautions when changing piggy backs ROM devices jumper setting...

Page 14: ...environmental requirements This applies also to the operational temperature range of the specific board version which must not be exceeded If batteries are present their temperature restrictions must...

Page 15: ...und the original cost of purchase if appropriate In the event of repair re funding or replacement of any part the ownership of the removed or replaced parts reverts to Kontron and the remaining part o...

Page 16: ...Preface CP690HS Page xvi ID 20955 Rev 05 P R E L I M I N A R Y This page has been intentionally left blank...

Page 17: ...CP690HS Introduction ID 20955 Rev 05 Page 1 1 Introduction Chapter 1 1 P R E L I M I N A R Y...

Page 18: ...Introduction CP690HS Page 1 2 ID 20955 Rev 05 P R E L I M I N A R Y This page has been intentionally left blank...

Page 19: ...r is required for using the hot swap feature It may be configured either for 3 3V or 5V signalling on the secondary PCI bus PMC side It supports all the signals of the PCI bus on its connectors Jn1 J1...

Page 20: ...IO6 90 1 3 System Relevant Information The following system relevant information is general in nature but should still be considered when developing applications using the CP690HS Table 1 1 System Rel...

Page 21: ...1 5 P R E L I M I N A R Y 1 4 Functional Block Diagram Figure 1 1 Functional Block Diagram CP690HS rP3 Backplane rP5 J2 J1 J3 J5 PMC 2 Module PMC 1 Module P2 P1 P3 P5 J22 J24 J12 J14 J21 J23 J11 J13 P...

Page 22: ...Introduction CP690HS Page 1 6 ID 20955 Rev 05 P R E L I M I N A R Y 1 5 Front Panel Figure 1 2 Front Panel CP 690HS HS...

Page 23: ...Board Layout Figure 1 3 Board Layout 1 2 63 64 1 2 63 64 1 2 63 64 1 2 63 64 PMC Coding Key Function PMC coding key B 5V PMC coding key A 3 3V J5 J3 J2 J1 Logic PCI to PCI Bridge Power Controller A 1...

Page 24: ...mpliant mezzanine interface Jn1 Jn2 Jn3 and Jn4 PCI mezzanine connectors for standard single size PMC modules 64 32 bit 66 33 MHz PCI interface User selectable configuration to 3 3 V or 5 V default co...

Page 25: ...10 300 Hz 2 g 1 oct min 10 cycles axis 3 axes Shock IEC60068 2 27 30 g 9 ms 3 shocks per direction 6 directions 5 s recovery time Bump IEC60068 2 29 15 g 11 ms 500 bumps per direction 6 directions 1 s...

Page 26: ...ated Publications PRODUCT PUBLICATION CompactPCI Systems and Boards CompactPCI Specification 2 0 Rev 3 0 CompactPCI Hot Swap Specification PICMG 2 1 Rev 1 0 Draft Standard for a Common Mezzanine Card...

Page 27: ...CP690HS Functional Description ID 20955 Rev 05 Page 2 1 Functional Description Chapter 1 2 P R E L I M I N A R Y...

Page 28: ...Functional Description CP690HS Page 2 2 ID 20955 Rev 05 P R E L I M I N A R Y This page has been intentionally left blank...

Page 29: ...y with the CompactPCI hot swap specification PIC MG 2 1 R1 0 which means that the power supply of the PMC modules will be ramped up and a reset generated whenever the board is plugged into a running s...

Page 30: ...7 Ground 21 22 AD 26 AD 25 23 24 Ground AD 24 23 24 3 3V Ground 25 26 C BE 3 IDSEL 25 26 AD 23 AD 22 27 28 AD 21 3 3V 27 28 AD 20 AD 19 29 30 5V AD 18 29 30 Ground V I O 31 32 AD 17 AD 16 31 32 C BE 2...

Page 31: ...ound Ground 15 16 AD 60 AD 59 17 18 AD 58 AD 57 19 20 Ground V I O 21 22 AD 56 AD 55 23 24 AD 54 AD 53 25 26 Ground Ground 27 28 AD 52 AD 51 29 30 AD 50 AD 49 31 32 Ground Ground 33 34 AD 48 AD 47 35...

Page 32: ...PMC2IO28 PMC1IO29 29 30 PMC1IO30 PMC2IO29 29 30 PMC2IO30 PMC1IO31 31 32 PMC1IO32 PMC2IO31 31 32 PMC2IO32 PMC1IO33 33 34 PMC1IO34 PMC2IO33 33 34 PMC2IO34 PMC1IO35 35 36 PMC1IO36 PMC2IO35 35 36 PMC2IO3...

Page 33: ...tration clock and power J3 and J5 have rear I O interface functionality from the PMC module The CP690HS is designed for a CompactPCI bus architecture The CompactPCI standard is electrically identical...

Page 34: ...0 ACK64 GND 23 GND 3 3V AD 4 AD 3 5V AD 2 GND 22 GND AD 7 GND 3 3V AD 6 AD 5 GND 21 GND 3 3V AD 9 AD 8 M66EN C BE 0 GND 20 GND AD 12 GND V I O AD 11 AD 10 GND 19 GND 3V AD 15 AD 14 GND AD 13 GND 18 GN...

Page 35: ...GND NC NC NC GND NC GND 15 GND NC GND NC NC NC GND 14 GND AD35 AD34 AD33 GND AD32 GND 13 GND AD38 GND V I O AD37 AD36 GND 12 GND AD42 AD41 AD40 GND AD39 GND 11 GND AD45 GND V I O AD44 AD43 GND 10 GND...

Page 36: ..._3 3V RIO_3 3V RIO_5V RIO_5V GND 13 GND PMC1IO5 PMC1IO4 PMC1IO3 PMC1IO2 PMC1IO1 GND 12 GND PMC1IO10 PMC1IO9 PMC1IO8 PMC1IO7 PMC1IO6 GND 11 GND PMC1IO15 PMC1IO14 PMC1IO13 PMC1IO12 PMC1IO11 GND 10 GND P...

Page 37: ...MC2IO17 PMC2IO16 GND 9 GND PMC2IO25 PMC2IO24 PMC2IO23 PMC2IO22 PMC2IO21 GND 8 GND PMC2IO30 PMC2IO29 PMC2IO28 PMC2IO27 PMC2IO26 GND 7 GND PMC2IO35 PMC2IO34 PMC2IO33 PMC2IO32 PMC2IO31 GND 6 GND PMC2IO40...

Page 38: ...Functional Description CP690HS Page 2 12 ID 20955 Rev 05 P R E L I M I N A R Y This page has been intentionally left blank...

Page 39: ...Installation Chapter 1 3 ID 20955 Rev 05 Page 3 1 CP690HS Installation P R E L I M I N A R Y...

Page 40: ...Installation CP690HS This page has been intentionally left blank Page 3 2 ID 20955 Rev 05 P R E L I M I N A R Y...

Page 41: ...tem power before installing the board in a free CompactPCI slot Failure to do so could endanger your life or health and may damage your board or system Note Certain CompactPCI boards require bus maste...

Page 42: ...tself 3 To install the CP690HS perform the following 1 Carefully insert the board into the slot designated by the application requirements for the board until it makes contact with the backplane conne...

Page 43: ...crew the front panel retaining screws 4 Disengage the board from the backplane by first unlocking the board ejection handles and then by pressing the handles as required until the board is disengaged...

Page 44: ...Module Installation 1 Place the EMC gasket on the bezel of your PMC module 2 Push the PMC bezel into the window of the front panel of the CP690HS and plug the con nectors together 3 Use four screws M...

Page 45: ...he PCI to PCI bridge i e the CompactPCI side has buffers either for 3 3V or 5V signaling and is not selectable by the user 3 4 1 2 PMC Signaling Voltage The secondary PMC side of the PCI to PCI bridge...

Page 46: ...Installation CP690HS This page has been intentionally left blank Page 3 8 ID 20955 Rev 05 P R E L I M I N A R Y...

Page 47: ...Configuration ID 20955 Rev 05 Page 4 1 CP690HS Configuration P R E L I M I N A R Y Chapter 1 4...

Page 48: ...Configuration CP690HS This page has been intentionally left blank Page 4 2 ID 20955 Rev 05 P R E L I M I N A R Y...

Page 49: ...1 Jumpers on the CP690HS The default setting is indicated by using italic bold Table 4 1 Jumpers Settings R72 R71 DESCRIPTION Closed Open 3 3V signalling Open Closed 5V signalling Warning No other ju...

Page 50: ...Configuration CP690HS This page has been intentionally left blank Page 4 4 ID 20955 Rev 05 P R E L I M I N A R Y...

Page 51: ...Hot Swap ID 20955 Rev 05 Page 5 1 CP690HS Hot Swap P R E L I M I N A R Y Chapter 1 5...

Page 52: ...Hot Swap CP690HS This page has been intentionally left blank Page 5 2 ID 20955 Rev 05 P R E L I M I N A R Y...

Page 53: ...rd operating system and the possibility of removing and inserting the board without disturbing the signal quality on the bus CompactPCI hot swap is currently the most effective way to meet this need S...

Page 54: ...n of Staggered Pinning on the Hot Swap Backplane Note Some special signals e g ENUM HEALTHY BDSEL etc have particular routing requirements Step 3 Step 1 Step 2 EARLY POWER BACK END POWER PCI SIGNALS E...

Page 55: ...ing bus without disturbing the system it requires the following additional features Precharge Power ramping Hot swap control and status register bits Automatic interrupt generation whenever a board is...

Page 56: ...tiates the generation of the ENUM interrupt produced by the onboard logic 5 2 4 ENUM Interrupt The onboard logic generates a low active interrupt signal to indicate that the board is about to be extra...

Page 57: ...7 P R E L I M I N A R Y Table 5 2 Hot Swap Register Bits BIT SIGNAL ON PERICOM PI7C8154B EXT GPIO 2 INS GPIO 3 LOO GPIO 0 EIM GPIO 1 Warning GPIO 2 3 have to be configured as inputs A different confi...

Page 58: ...INS 1 ENUM 0 DISCONNECT 1 LED 1 Handle closed EIM 0 LOO 0 FFs valid 1 EXT 0 INS 0 ENUM 1 DISCONNECT 1 LED 1 Handle closed EIM 0 LOO 0 FFs valid 1 EXT 1 INS 0 ENUM 0 DISCONNECT 1 LED 1 Handle open EIM...

Page 59: ...t When read reflects the last value written Reset value 0 all pins are input only 23 20 GPIO output enable write 1 to set R W1TS The gpio 3 0 output enable control write 1 to set Writing 1 to any of t...

Page 60: ...lowing completion of the configuration write to this register Bit positions corresponding to gpio pins that are programmed as input only are not driven Writing 0 to these bits has no effect When read...

Page 61: ...Power Considerations Chapter 1 6 ID 20955 Rev 05 Page 6 1 CP690HS Power Considerations P R E L I M I N A R Y...

Page 62: ...Power Considerations CP690HS This page has been intentionally left blank Page 6 2 ID 20955 Rev 05 P R E L I M I N A R Y...

Page 63: ...ratings The following table specifies the ranges for the different input power voltages within which the board is functional The CP690HS is not guaranteed to function if the board is not operated wit...

Page 64: ...es As the design of the CP690HS has been optimized for minimal power consumption the power supply unit shall be stable even without minimum load Where possible power supplies which support voltage sen...

Page 65: ...uous ramp of each DC output voltage from 10 to 90 of the regulation band The slope of the turn on waveform shall be a positive almost linear voltage increase and have a value from 0 V to nominal Vout...

Page 66: ...minimum load on all output lines Table 6 3 Input Voltage Characteristics VOLTAGE NOMINAL VALUE TOLERANCE MAX RIPPLE p p 5 V 5 0 VDC 5 3 50 mV 3 3 V 3 3 VDC 5 3 50 mV 12 V 12 VDC 5 5 240 mV 12 V 12 VD...

Page 67: ...total power consumption of both PMC modules that is permit ted in order to be used on the CP690HS Overcurrent security for the PMC modules is provided by the power controller Table 6 4 Power Consumpt...

Page 68: ...Power Considerations CP690HS This page has been intentionally left blank Page 6 8 ID 20955 Rev 05 P R E L I M I N A R Y...

Page 69: ...System Considerations ID 20955 Rev 05 Page 7 1 CP690HS System Considerations P R E L I M I N A R Y Chapter 1 7...

Page 70: ...System Considerations CP690HS This page has been intentionally left blank Page 7 2 ID 20955 Rev 05 P R E L I M I N A R Y...

Page 71: ...55 Rev 05 Page 7 3 P R E L I M I N A R Y 7 System Considerations It is the responsibility of the system integrator to ensure that sufficient air flow or cooling is pro vided for proper operation of th...

Page 72: ...System Considerations CP690HS This page has been intentionally left blank Page 7 4 ID 20955 Rev 05 P R E L I M I N A R Y...

Page 73: ...CP RIO6 90 ID 20955 Rev 05 Page A 1 CP690HS CP RIO6 90 P R E L I M I N A R Y Appendix A...

Page 74: ...CP RIO6 90 CP690HS This page has been intentionally left blank Page A 2 ID 20955 Rev 05 P R E L I M I N A R Y...

Page 75: ...0 is plugged in from the back of the system into the backplane connectors rP3 and rP5 in line with the CP690HS A 2 Functional Block Diagram Figure A 1 CP RIO6 90 Functional Block Diagram Note The CP R...

Page 76: ...CP RIO6 90 CP690HS Page A 4 ID 20955 Rev 05 P R E L I M I N A R Y A 3 CP RIO6 90 Front Panel Figure A 2 CP RIO6 90 Front Panel...

Page 77: ...CP690HS CP RIO6 90 ID 20955 Rev 05 Page A 5 P R E L I M I N A R Y A 4 CP RIO6 90 Board Layout Figure A 3 CP RIO6 90 Board Layout 1 2 63 64 1 2 63 64 1 2 63 64 1 2 63 64 PIM 2 PIM 1 J3 J5...

Page 78: ...IM1 16 NC 17 18 GND PIM1 17 17 18 PIM1 18 NC 19 20 NC PIM1 19 19 20 PIM1 20 RIO_5V 21 22 NC PIM1 21 21 22 PIM1 22 NC 23 24 NC PIM1 23 23 24 PIM1 24 NC 25 26 RIO_3 3V PIM1 25 25 26 PIM1 26 NC 27 28 NC...

Page 79: ...C PIM2 31 31 32 PIM2 32 NC 33 34 GND PIM2 33 33 34 PIM2 34 NC 35 36 NC PIM2 35 35 36 PIM2 36 RIO_5V 37 38 NC PIM2 37 37 38 PIM2 38 NC 39 40 NC PIM2 39 39 40 PIM2 40 NC 41 42 RIO_3 3V PIM2 41 41 42 PIM...

Page 80: ...R Y A 5 2 CompactPCI Rear I O Interface on the CP RIO6 90 Module The CP RIO6 90 is equipped with two female CompactPCI rear I O connectors J3 and J5 Figure A 4 CompactPCI Rear I O Connectors J3 and J...

Page 81: ...PMC1_IO 20 PMC1_IO 19 PMC1_IO 18 PMC1_IO 17 PMC1_IO 16 NC 9 NC PMC1_IO 25 PMC1_IO 24 PMC1_IO 23 PMC1_IO 22 PMC1_IO 21 GND 8 NC PMC1_IO 30 PMC1_IO 29 PMC1_IO 28 PMC1_IO 27 PMC1_IO 26 NC 7 NC PMC1_IO 35...

Page 82: ...C PMC2_IO 15 PMC2_IO 14 PMC2_IO 13 PMC2_IO 12 PMC2_IO 11 GND 10 NC PMC2_IO 20 PMC2_IO 19 PMC2_IO 18 PMC2_IO 17 PMC2_IO 16 NC 9 NC PMC2_IO 25 PMC2_IO 24 PMC2_IO 23 PMC2_IO 22 PMC2_IO 21 GND 8 NC PMC2_I...

Page 83: ...ctPCI rear I O connectors J3 and J5 Internal Interfaces PIM Interface Four onboard 64 pin female PIM connectors PIM1 J10 and J14 PIM2 J20 and J24 General Power Consumption 3 3 V and 5 0 V 100 mW witho...

Page 84: ...CP RIO6 90 CP690HS This page has been intentionally left blank Page A 12 ID 20955 Rev 05 P R E L I M I N A R Y...

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