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Summary of Contents for Fastwel CPC505
- Page 1 CPC505 6U Compact PCI CPU Module User Manual Rev. 001 November 2022...
- Page 2 Product Title: CPC505 Document name: CPC505 User Manual Manual version: 001 Ref. doc. v.: Copyright © 2022 Fastwel Co. Ltd. All rights reserved. Revision Record Rev. Index Brief Description of Changes Board Index Date of Issue Initial version CPC505 November 2022 Contact Information Fastwel Co.
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Page 3: Table Of Contents
SATA SSD……………………………………………………………………………………………………………40 .............................. 41 Installation Safety requirements ............................ 41 CPC505 installation procedure ………..…………………………………………………………………………...42 Board removal procedure ……………………………………………………………………………………...…...43 Installation of the CPC505 peripheral devices ………………………………………..……………………….…44 Replacing the battery …………………………………………………………………………………………..……44 Installation of M.2 SSD ……….………………………………………………………………………..……………45 ............................46 System Setup Resetting BIOS settings ….…………………………………………………………………………………...46 Updating BIOS………………………………………………………………………………………………………..46... -
Page 4: List Of Tables
Additional interfaces at mezzanine connection …..………………..………………………………..59 Table A-6: Table A-7: Assignment of pins of the TH-4M connectors (XP3 and XP4) for feeding power to the CPC505..64 Table A-8: Assignment of pins of the PS/2 connector (XS4) for keyboard/mouse..……...………………………64 Table A-9: Assignment of the XP6 connector pins: COM1 port (RS232)………..…………..………………….…65... -
Page 5: List Of Figures
This document contains information, which is property of Fastwel Co. Ltd. It is not allowed to reproduce it or transmit by any means, to translate the document or to convert it to any electronic form in full or in parts without antecedent written approval of Fastwel Co. Ltd. or one of its officially authorized agents. - Page 6 CPC505 Ownership rights This document contains information that is the property of Fastwel Group. It may not be copied or transmitted by any known means, nor may it be stored in information storage and retrieval systems without the prior written consent of Fastwel Group or one of its authorized agents. The information...
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Page 7: Notation Conventions
CPC505 Notation Conventions Warning, ESD Sensitive Device! This symbol draws your attention to the information related to electro static sensitivity of your product and its components. To keep product safety and operability it is necessary to handle it with care and follow the ESD safety directions. -
Page 8: General Safety Precautions
CPC505 General Safety Precautions This product was developed for fault-free operation. Its design provides conformance to all related safety requirements. However, the life of this product can be seriously shortened by improper handling and incorrect operation. That is why it is necessary to follow general safety and operational instructions below. -
Page 9: Unpacking, Inspection And Handling
CPC505 Unpacking, Inspection and Handling Please read the manual carefully before unpacking the module or mounting the device into your system. Keep in mind the following: ESD Sensitive Device! Electronic modules and their components are sensitive to static electricity. Even a non-perceptible by human being static discharge... -
Page 10: Three Year Warranty
If a product should fail through Fastwel's fault during the warranty period, it will be repaired free of charge. For out of warranty repairs, the customer will be invoiced for repair charges at current standard labor and materials rates. -
Page 11: Introduction
Intel Xeon and Core processors with an integrated graphics engine. The CPC505 uses the CM246 chipset, which has the latest set of interfaces, including PCI Express 3.0, SATA 3.0, USB 3.1, etc. The graphics engine integrated into the processor provides the module with great opportunities when working via DisplayPort, DVI-I, LVDS video interfaces. -
Page 12: Technical Specifications
CPC505 Technical Specifications Main technical characteristics Intel Xeon E-2276ML 2.0GHZ 25W processor (Coffee Lake-H Refresh): 6 x cores Intel x64, 12 x threads; 3 x graphics engines; 12 MB cache; Intel Core i3-9100HL 1.6GHZ 25W processor (Coffee Lake-H Refresh): ... - Page 13 CPC505 Rate up to 100 Kb/sec; Flash BIOS: 2x128 Mb SPI-Flash; Modifiable in the system. FRAM: Capacity 32 KB; Implemented on SPI bus; Integrated SATA SSD: Capacity 32 GB; Interface SATA III 6 Gb/sec;...
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Page 14: Table 2-1: Supply Voltage Of +5 V, +3.3 V From The Cpci Bus
CPC505 Implemented via the PECI/SMBUS interfaces; Monitoring of three supply voltages; Monitoring of CPU temperature; Monitoring of PCB temperature; Support of XMC/PMC expansion boards: Support of one PMC/XMC module; PCI-X 64bit/133MHz bus is routed to the P1-P4 PMC connector (ANSI/VITA 39, PCI-X on PMC);... -
Page 15: Module Versions
16GB 2666 DDR4 Description of the supplied configurations: CPC505-01 – CPC505 CPU - Module, Intel Xeon E-2276ML 2.0 GHz, 6 x cores, 32 GB DDR4 SDRAM, from -40 °C to +85 °C; CPC505-02 – CPC505 CPU - Module, Intel Core i3-9100HL 1.6 GHz, 4 x Cores, 16 GB DDR4 SDRAM, from - 40 °C to +85 °C;... -
Page 16: Packaging Information
CPC505 Packaging information The CPC505 module is supplied in in a box 350х260х70 mm in size. The packed weight of the device is max. 1.050kg. Note Retain the anti-static packaging and consumer packaging of the module in its original condition until the end of the warranty period. -
Page 17: Appearance And Arrangement Of Elements
CPC505 Operating systems CPC505 is compatible with the following operating systems: Linux Debian 10; Windows 10. 2.7 Appearance and arrangement of elements 2.7.1 Block diagram Block diagram is shown in Figure 2-1. Figure 2-1 – Block diagram © 2 0 2 2 F a s t w e l v . -
Page 18: Figure 2-2: Overall Dimensions And Location Of Main Components Of The Device
CPC505 2.7.2 Overall dimensions and arrangement of main components Figure 2-2 – Overall dimensions and location of main components of the device © 2 0 2 2 F a s t w e l v . 0 0 1 C P C 5 0 5... -
Page 19: Functional Description
CPC505 3 Functional description 3.1 Features of operation of functional nodes CPU Intel Xeon E-2276ML / Intel Core i3-9100HL 64-bit Intel microprocessor, manufactured in accordance with the 14 nm process technology, with TDP of 25 W. Includes up to 6 improved 9... - Page 20 CPC505 The module has 6 x integrated Gigabit Ethernet interfaces. 2 of them are routed to the P16 XMC connector, another 2 are routed to the backplane (PICMG 2.16). The XMC has an MDI link. The interfaces are implemented on a high-speed i350 server controller. Two of the interfaces are on the front panel and are based on the new Intel i225 adapter that supports transfer rates up to 2.5 Gb/s...
- Page 21 CPC505 PCI The PCI bus is implemented on a Pericom PI7C9X130 reversible bridge connected to the PCIe x4 bus. The following operating modes are supported: PCI 32bit/33MHz, PCI 64bit/66MHz. Both system and peripheral slots are supported. SPI The interface is implemented in FPGA on the LPC bus. The FRAM chip (located on the board) is supported.
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Page 22: Module Interfaces
P16 XMC connector. 3.2.1.1 XMC interface For XMC expansion module, the CPC505 board has XS4 (P15) and XS5 (P16) connectors. Figure 3-1 – XMC XS4 (P15) and XS5 (P16) connectors The below tables show the pin assignments of the XMC connectors. -
Page 23: Table 3-2: Assignment Of Xmc Xs5 (P16) Connector Pins
J5 CompactPCI connector. The PMC interface complies with the IEEE-1386.1 specification, which defines an electrical PCI interface for Common Mezzanine Card (CMC) form factor cards. The CPC505 allows operation of © 2 0 2 2 F a s t w e l v . -
Page 24: Table 3-3: Assignment Of Pins Of The Pmc Xs2 (P1), Xs3 (P3), Xs6 (P2) And Xs7 (P4) Connectors
CPC505 the 3.3V PCI PMC bus. In order to reduce consumption currents, PMC module support can be disabled in BIOS Setup. Note: The PMC I/O signals are routed to the J5 CompactPCI connector, whose pin assignments are described in this chapter below. -
Page 25: Table 3-4: Assignment Of The M.2 Xp5 Connector Pins
PMC_I/O 3.2.2 M.2 interface The XP5 connector (located on the top side of the CPC505 board, see Figure 2-2 ) allows an M.2 PCI Express drive to be installed on the CPC505 module. You can install the drive in conjunction with the PMC/XMC expansion module. -
Page 26: Table 3-5: Assignment Of Usb Connectors Pins On The Front Panel Of The Cpc505
3.2.3 Connectors on the front panel of CPC505 3.2.3.1 USB interface The CPC505 has 4 x USB 3.0 ports on the front panel (see Figure 2-2 ). Super-speed, high-speed, full-speed and low-speed modes are supported. USB 3.0 in super-speed mode can transfer data at up to 5 Gbps. -
Page 27: Table 3-6: Assignment Of The Gigabit Ethernet Connector Pins
RJ45 connector. 3.2.3.3 DVI-I connector The DVI-I connector on the front panel of the CPC505 (see Figure 3-5) is intended to connect an analog VGA monitor (2048x1536@75Hz) or a digital DVI-D monitor (1920x1200@60Hz). Figure 3-5 - DVI-I connector ©... -
Page 28: Table 3-7: Assignment Of The Xs5 Connector Pins (Dvi) Of The Cpc505 Module
HSYNC 3.2.3.4 DisplayPort The DisplayPort connector on the front panel of the CPC505 (see Figure 2-2 ) is designed to connect digital monitors with a resolution of up to 2560x1600@60Hz. The output also allows you to connect DVI-D monitors via a passive adapter. -
Page 29: Table 3-8: Assignment Of The Xs6 Displayport Connector Pins Of The Cpc505 Module
CPC505 Table 3-8 – Assignment of the XS6 DisplayPort connector pins of the CPC505 module XS6 (DP) Assignment LANE0+ LANE0- LANE1+ LANE1- LANE2+ LANE2- LANE3+ LANE3- AUX_EN# CONFIG2 AUX+ AUX- HP_DETECT +3.3V 3.2.4 LED indicators on the front panel of the CPC505 The front panel of the CPC505 (see Figure 2-2) has LED indicators: ▪... - Page 30 These PICMG 2.16 features can be used in both system and peripheral slots. 3.2.5.4 Switch in the handle A microswitch is located in the bottom handle of the CPC505 front panel and is connected to the XP1 connector on the board. Opening the handle initiates the module shutdown procedure. Briefly pushing the microswitch causes the board to reset.
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Page 31: Figure 3-8: Compactpci Connectors
3.2.5.5 Power supply mode LED (SYS) The SYS LED on the front panel of the CPC505 (see Figure 2-2) is blue in color and is used to indicate the module's power supply mode. It is used to indicate that the shutdown process is complete and the board is ready to be removed from the slot, see Table 3-9 - SYS LED Status. -
Page 32: Table 3-10: Color Code Designations Of Connectors
Universal board (5 V and 3.3 V) 3.2.6.2 Assignment of pins of the CompactPCI XS18 and XS16 connectors The CPC505 is equipped with two CompactPCI bus connectors with a 2x 2 mm pin pitch - XS18 and XS16. Table 3-11 – Assignment of pins of the CompactPCI XS18 (J1) system connector... -
Page 33: Table 3-12: Assignment Of The Pins Of Xs16 (J2) System Connector Of 64-Bit Compactpci Bus
3.2.6.3 CompactPCI XS11, XS8 and XS1 (J3-J5) I/O connectors and assignment of their pins On the CPC505 part of the I/O signals are transferred via the XS11, XS8 and XS1 connectors. The board provides additional options for connecting peripheral I/O devices in compact special-purpose systems. -
Page 34: Table 3-13: Assignment Of Xs11 (J3) Connector Pins Of The Cpc505
ETH2_3- ETH2_0+ ETH2_0- ETH2_2+ ETH2_2- ETH1_1+ ETH1_1- ETH1_3+ ETH1_3- ETH1_0+ ETH1_0- ETH1_2+ ETH1_2- WAKE# Table 3-14 – Assignment of the XS8 (J4) connector pins of the CPC505 DP_HPD DP_LANE3+ DP_LANE3- eDP_TX0- eDP_TX0+ DP_LANE2+ DP_LANE2- eDP_TX1- eDP_TX1+ DP_LANE1+ DP_LANE1- eDP_TX2- eDP_TX2+... -
Page 35: Table 3-15: Assignment Of The Xs1 (J5) Connector Pins Of The Cpc505
HDA_SYNC GPIO0 GPIO3 RIO_LED RSTIN# GPIO1 GPIO4 +3.3V GPIO2 GPIO5 LAN1_DISABLE# LAN2_DISABLE# GPIO6 GPIO7 Table 3-15 – Assignment of the XS1 (J5) connector pins of the CPC505 Pins LPC_AD0 +3.3V +5V_IN LPC_AD1 +3.3V +5V_IN LPC_AD2 +5V_IN LPC_AD3 +5V_IN LPC_FRAME# SUSCLK... -
Page 36: Timers
CPC505 3.3 Timers The module is equipped with the following types of timers: RTC or Real-Time Clock; The PCH includes a battery-powered real-time clock. Watchdog Timer The description is given below. 3.3.1 Watchdog Timer The watchdog is implemented in the FPGA as an LPC bus device. Enabling the watchdog timer and selecting a hardware interrupt (IRQ) is performed in the BIOS Setup. - Page 37 CPC505 5) Then with a period smaller than the timeout value, perform a regular reset of the counter (by any of the methods described above). If the counter is not reset during the first timeout interval, the TMF flag will be set and an interrupt will occur (if enabled), if the counter is not reset during the second timeout interval, the STF flag will be set and the second interrupt will occur (or the board will reboot if the reset was enabled).
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Page 38: Spi/Leds/Gpio Controller
CPC505 Write/Read: Second timeout flag. The flag is to “1” if TMF=1. An interrupt occurs on this flag. If the board reset is enabled RSTE=1, a hardware reset occurs. It is reset by writing “1” to this digit. Reserved Write/Read: Timeout Flag. - Page 39 CPC505 Base+5 RIO GPIO Direction [7:0] – GPIO Direction 0 – input 1 – output Base+6 RIO GPIO DATA [7:0] – GPIO DATA Base+7 User LEDs control [7:2] – Reserved [2] – RIO LED On/Off [1] – GREEN LED On/Off [0] –...
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Page 40: Devices On The Local Smbus
02EH LM87 Hardware monitor 3.6 Battery The CPC505 uses one 3.0 V lithium battery to power the real-time clock. 3.7 SATA SSD A 32GB high performance SATA SSD drive is installed on the module. The drive is connected to the SATA 3.0 interface. The drive can be disabled through the BIOS Setup settings. -
Page 41: Installation
Please refer to the relevant materials or contact our tech support. 4.1 Safety requirements When handling the CPC505, you should strictly follow the below safety requirements. The manufacturer FASTWEL GROUP is not responsible for any damage resulting from failure to comply with these requirements. -
Page 42: Cpc505 Installation Procedure
Installation of the MIC1901 on the CPC505 is described in subparagraph B.9.3. Warning! All other operations should be performed carefully in order not to damage the CPC505 or any of the other boards in the system. 3. Perform the following steps to install the CPC505: 1. -
Page 43: Board Removal Procedure
CPC505 4. The CPC505 is now ready for use. Refer to the documentation of the programs, devices and the system as a whole for further instructions. 4.3 Board removal procedure In order to remove the board, perform the following operations: 1. -
Page 44: Installation Of The Cpc505 Peripheral Devices
4.4 Installation of the CPC505 peripheral devices A wide variety of peripherals can be connected to the CPC505, and installation methods vary widely. The following sections provide general installation guidelines only, not detailed algorithms. 4.4.1 Connection of USB devices The CPC505 supports the use of any USB computer peripheral (e.g. -
Page 45: Installation Of M.2 Ssd
CPC505 The expected life of a 190mAh battery is approximately 5-6 years provided that it is operated 8 hours a day at 30°C. However, battery life is highly dependent on operating temperature and the amount of time the system is turned off. -
Page 46: System Setup
(for example, due to an error in the BIOS setup or an incorrect password). To reset the CPC505 module BIOS settings, the following steps should be performed: 1. Switch off the system power supply;... -
Page 47: Ami Aptio Bios Setup
CPC505 6 AMI Aptio BIOS Setup 6.1 Starting and updating the BIOS Setup program Your computer has an adapted version of the AptioTM TSE (Text Setup Environment) BIOS which is a standard system for IBM PC AT-compatible computers. It supports Intel® x86 and compatible processors, provides low-level support for processor, memory, and I/O subsystems. - Page 48 CPC505 The “+” and “-“ keys on the numeric keypad allow you to change any values in the selected menu item. For example, “Date” and “Time”. The <Tab> key makes it possible to select the AptioTM TSE value field. This key calls the main help window.
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Page 49: Main
CPC505 6.2 Main This BIOS Setup screen is the main screen upon entry. The menu on this tab adjusts the real time clock and date and switching-over of the menu tabs to set module settings, and displays information about the BIOS program. -
Page 50: Troubleshooting
CPC505 7 Troubleshooting Before contacting a service center, please read the troubleshooting information, since the problem may not be related to a malfunction of the device. Table 7-1 - CPC505 fault causes and their troubleshooting PROBLEM CUASE SOLUTION The module does not start, +5 V, +3.3V power supply... -
Page 51: Power Consumption
CPC505 8 Power consumption The CPC505 module is designed with due consideration of optimal power consumption and distribution. However, it is necessary to observe certain requirements which are essential for stability and reliability. The table below shows the maximum permissible supply line voltages, exceeding which could result in damages to the module. -
Page 52: Exposure To External Factors
9 Exposure to external factors 9.1 Temperature mode If the CPC505 is operated under normal operating conditions with sufficient air circulation, the processor runs at maximum performance. In the case of non-optimal environmental conditions (high ambient temperature and lack of air circulation) the system continues to operate anyway, but with reduced processor performance due to the SpeedStep®. -
Page 53: Operating Conditions And Mtbf
CPC505 strongly advised to make sure that the operating environment of the CPC505 meets the temperature requirements. 9.2 Operating conditions and MTBF The device must be able to withstand the following climatic and mechanical actions: Table 9–2 – Environmental exposure when operating CPC505... -
Page 54: Annex A: Rio587 Rear I/O Module
RIO587 Rear I/O Module A.1 Introduction The RIO587 I/O module is designed for use with the CPC505 board (CompactPCI format, 6U form factor). The RIO587 ensures access to the CPC505 interfaces on J3 – J5 CPCI connectors when installed from the reverse side of the backplane. -
Page 55: Rio587 Delivery Checklist
CPC505 Table A-3 – Weight of the RIO587-01 and RIO587-02 modules Module type Weight in kg, no more than RIO587-01 0,300 RIO587-02 0,350 A.3 RIO587 delivery checklist The RIO587 I/O module includes the items listed below: ▪ RIO587 module; ▪ Jumpers (regardless of the module version): −... -
Page 56: Structure Of I/O Channels Of Rio587
▪ LPT connector (BH-26) per flat ribbon cable - IDC-26 (XS11); ▪ 3 x RS-232 connectors (BH-10) on flat ribbon cable - IDC-10 (XP10-XP12); ▪ 2 x connectors TH-4M for additional +5V power supply to the CPC505 module; ▪ XP16 connector, to which the two-channel LVDS (XP16) is routed;... -
Page 57: Appearance And Layout Of Rio587 Elements
CPC505 The RIO587-02 version has additional COM ports on the rear panel: Table A-5 – Additional interfaces on the rear panel of the RIO587-02 version Interface Quantity Note RS-232 COM2, up to 1.5 Mbaud RS-232 COM3, up to 1.5 Mbaud RS-232 COM4, up to 1.5 Mbaud... -
Page 58: Figure A-1: Block Diagram Of Rio587
CPC505 A.6.1 Functional diagram of RIO587 Figure A-1 – Block diagram of RIO587 * Support of this functionality is possible if a mezzanine connector is installed by the manufacturer on the RIO587-02 module and an additional expansion board is connected. -
Page 59: Table A-6: Additional Interfaces At Mezzanine Connection
CPC505 Additional interfaces that can be routed to the mezzanine board connector (marked with an asterisk in the block diagram) are summarized in the table: Table A-6 – Additional interfaces at mezzanine connection Interface Quantity Note PCI-Express 1x Can be used on the mezzanine USB 2.0... -
Page 60: Figure A-2: Rio587-01 (4Hp Height)
CPC505 A.6.2 Layout of RIO587 main components Figure A-2 - RIO587-01 (4HP height) The appearance of the module versions may slightly differ from that shown in the figure. © 2 0 2 2 F a s t w e l v . -
Page 61: Figure A-3: Rio587-02 (8Hp Height)
CPC505 Figure A - 3 - RIO587-02 (8HP height) The appearance of the module versions may slightly differ from that shown in the figure. © 2 0 2 2 F a s t w e l v . 0 0 1... -
Page 62: Figure A-4: Designation Of Rio587 Key Components On The Top View
CPC505 Figure A-4 – Designation of RIO587 key components on the top view © 2 0 2 2 F a s t w e l v . 0 0 1 C P C 5 0 5 U s e r... -
Page 63: Features Of Operation Of Rio587 Functional Nodes
CPC505 A.7 Features of operation of RIO587 functional nodes ■ SATA 2 x SATA interfaces for connecting drives, one routed to the CFast card connector, the other one to a standard SATA connector (XP15) with Innodisk SATADOM power support (Innodisk SATADOM is installed on the RIO587-01 module). -
Page 64: Rio587 Connectors
There are 2 x TH-4M connectors on the top side of the RIO587 to provide additional +5V power to the CPC505 module: XP3 and XP4. Table A-7 – Assignment of pins of the TH-4M connectors (XP3 and XP4) for feeding power to the CPC505 Signal +12V A.8.2 PS/2 connector (XS4) for keyboard/mouse... -
Page 65: Table A-9: Assignment Of The Xp6 Connector Pins: Com1 Port (Rs232)
CPC505 A.8.3 XP6 connector (COM1) COM1 port (RS232) is routed to the XP6 connector on the rear panel of the RIO587 module. Table A-9 – Assignment of the XP6 connector pins: COM1 port (RS232) Signal A.8.4 XS11 connectors (LPT) On the top side of the RIO587 there is a LPT XS11 connector: IDC-26. -
Page 66: Table A-11: Assignment Of Pins Of The Xp10-Xp12 Connectors (Com2-Com4)
CPC505 Table A-11 – Assignment of pins of the XP10-XP12 connectors (COM2-COM4) Signal – A.8.6 XP7/ XP8 connectors (COM5/COM6) The RS485 ports (COM5/COM6) are routed to standard rear panel DSUB-9 connectors (XP7/ XP8). The RS485 (COM5 and COM6) matching circuits can be connected by using jumpers XP13 and XP14 installed on the module, respectively, or by closing pins 2 and 7 of the XP7 and XP8 connectors. -
Page 67: Table A-14: Assignment Of The Xp15 (Sata) Connector Pins
The Innodisk SATADOM is fastened using the parts from the installation kit, see subparagraph A.3. The RIO587-01 module with the SATADOM drive installed is shown in Figure A-5. Install the SATA flash drive before mounting the RIO587-01 module to the CPC505 board. © 2 0 2 2 F a s t w e l v . -
Page 68: Figure A-5: Rio587-01 With The Mounted Satadom Drive
CPC505 Figure A-5 - RIO587-01 with the mounted SATADOM drive Warning! Since the SATA connector supports the ability to power SATADOM modules through pin 7, please see Table A-14 - Assignment of the XP15 (SATA) connector pins, connecting and disconnecting standard SATA drives while the module is on can lead to module or power supply failures. -
Page 69: Table A-16: Assignment Of The Cfast (Xs5) Card Connector Pins
CPC505 Figure A-6 - RIO587-02 with the installed HDD 2.5" Attention! Installation/removal of HDD 2.5” is allowed only when the module’s power supply is off. Attention! The hard disks with 12V power supply are not supported. A.8.8 CFast card connector (XS5) The tope side of the RIO587 has an XS5 connector for a CFast (Compact Flash with SATA interface) card. -
Page 70: Table A-17: Assignment Of The Xp5 Connector Pins (Gpio And 3.3V Power Supply)
CPC505 B– – – – – – – – – – +3.3V +3.3V A.8.9 XP5 connector (GPIO and 3.3V power) The GPIO0-GPIO7 lines and the 3.3V power supply (XP5) are routed to the BH-10 connector. The GPIO lines are operated via the I/O ports described in subparagraph 3.4. -
Page 71: Table A-18: Assignment Of The Xp16 Connector Pins (Lvds)
CPC505 A.8.10 XP16 connector (LVDS) Two-channel LVDS is routed to the XP16 connector. Table A-18 – Assignment of the XP16 connector pins (LVDS) Pin number Function Note Voltage is selected with the XP17 jumper (see paragraph A.9.2) Voltage is selected with the XP17 jumper (see paragraph A.9.2) DDC_CLK Level 3.3V... -
Page 72: Configuring And Preparing The Rio587 Module For Operation
CPC505 XP16 connector mating part: Hirose DF13-40DS-1.25C. A.8.11 LCD panel backlight power connector The XP19 connector is installed for power supply of the LCD panel backlight. Table A-19 – Assignment of the XP19 connector pins (LCD panel backlight) Pin number... -
Page 73: Table A-20: Power Supply Requirements For The Rio587
RIO587 A.9.8 RIO587 module installation and removal The RIO587 is installed on the back side of the system chassis opposite the CPC505 processor board in the corresponding backplane slot. Follow the rules listed in Section 4 when installing and removing the RIO587. -
Page 74: Rio587 Operating Conditions And Mtbf
CPC505 A.10 RIO587 operating conditions and MTBF The device shall maintain its performance under climatic and mechanical conditions specified in the table: Table A- 22 – Exposure of external factors during operation of the RIO587 Type of the exposure Parameter name... -
Page 75: Annex B: Mic1901 Mezzanine Module
MIC1901 mezzanine module B.1 Introduction The MIC1901 mezzanine module is designed for being used in conjunction with the CPC505 CPU module to expand the basic functions of the CPU module. The MIC1901 is used in systems operated in harsh environments. -
Page 76: Appearance Of The Mic1901 And Layout Of Main Elements
CPC505 B.4 Appearance of the MIC1901 and layout of main elements The below figures are provided to help you identify components and understand their locations and functions. B.4.1 Block diagram of MIC1901 Figure B - 1 – Block diagram MIC1901 ©... -
Page 77: Figure B-2: Designation Of The Mic1901 Main Components In The Bottom View
CPC505 B.4.2 Layout of MIC1901 main components Figure B-2 – Designation of the MIC1901 main components in the bottom view Figure B-3 – Layout of the MIC1901 main components on the bottom view In area 1, the maximum height of the components is 9.5mm. -
Page 78: Table B-3: Mic1901: Overall Dimensions
CPC505 B.4.3 Weight and dimensions и of the MIC1901 Figure B-4 - MIC1901: mounting and outside dimensions Figure B-5 - MIC1901: front panel with designation of connectors Table B-3 - MIC1901: Overall dimensions Assembly option Overall dimensions, mm 152.5 х 81.0 х 14.4 With CFast holder 152.5 х... -
Page 79: Information On Mic1901 Packaging
B.8 Pinout charts of the MIC1901 connectors B.8.1 XP2 connector (XMC P16) The XMC P16 connector (XP2 on the MIC1901) is used to connect the module to the CPC505 board. The pin assignment is described in section 3.2.1.1 XMC interface. -
Page 80: Installation And Preparation Of The Mic1901 For Operation
CPC505 B.8.2 Connector for CFast card (XS5) The MIC1901 has a CFast card connector XS8 on the bottom side. Table B-4 – Assignment of pins of the CFast (XS8) card connector Signal Signal – – A– – – B– –... -
Page 81: Table B-6: Power Supply Requirements Of The Mic1901
CPC505 B.9.2 Power supply requirements of the MIC1901 The +5 V, +3.3 V power supply voltage is supplied from the CPC505 module via the XMC P16 connector. The maximum rated power consumption without connected peripheral devices is shown in the table below. -
Page 82: Figure B-7: View Of The Cpc505 Front Panel With The Mic1901 Module Installed
CPC505 Before installing the MIC1901 on the CPC505 module, you must remove the plug from the front panel of the CPC505 (see Figure B-7) to allow access to the front panel connectors of the MIC1901 module. Figure B-7 – View of the CPC505 front panel with the MIC1901 module installed For fastening the MIC1901 module to the CPC505 (the racks are mounted to MIC1901 by the manufacturer) use the M2.5x6 DIN7985 screws (4 pcs.) with semi-cylindrical head from the... -
Page 83: Operating Conditions Of The Mic1901 And Mtbf
CPC505 B.9.4 Mounting Memory Module Holders to MIC1901 The MIC1901 memory module holders (see Figure B - 8) are supplied with the MIC1901 (see sub- section B.6). You should mount the holders to the MIC1901 board according to B-9, positions E and F using countersunk head screws M2,5x6 DIN965 (2 pcs.), washers (washer 2.5 DIN125 (2... -
Page 84: Annex C: Terms And Abbreviations
CPC505 ANNEX C Terms and abbreviations Term Definition ACPI Advanced Configuration and Power Interface Accelerated Graphics Port AGTL Advanced Gunning Transceiver Logic BIOS Basic Input-Output System Baseboard Management Controller cPCI CompactPCI CRT-display Cathode Ray Tube Display Digital-Analog Converter DDR SDRAM... - Page 85 CPC505 EEPROM Electrically Erasable Programmable Read-Only Memory EHCI Enhanced Host Controller Interface (Universal Serial Bus specification) EIDE Enhanced Integrated Drive Electronics Electrical Overstress Electrostatically Sensitive Device Floppy Disk Drive Frequency System Bus Firmware Hub GMCH Graphics and Memory Controller Hub I2C™...
- Page 86 CPC505 POST Power On Self Test Processor System Bus PWM output Pulse-Width Modulation RAMDAC Random Access Memory Digital-to-Analog Converter Rear I/O Board Rear Input-Output Board Real Time Clock System Management Bus SMBus System Management Bus SODIMM Small Outline Dual In-Line Memory Module...
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Page 87: Annex:d Disclaimer
1.2 Use of the Fastwel products as well as the objects of intellectual property containing in them, in the ways and for the purposes, not provided by the present user manual and datasheet isn't allowed without preliminary written approval of Fastwel.
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