原理图6

SP601 Hardware User GuideUG518 (v1.7) September 26, 2012© Copyright 2009–2012 Xilinx, Inc. Xilinx, the Xilinx logo, Artix, ISE, Kintex, Spartan, Virtex, Zynq, and other designated brands included herein are trademarks of Xilinx in the United States and other countries. All other trademarks are the property of their respective owners. DISCLAIMERThe information disclosed to you hereunder (the “Materials”) is provided solely for the selection and use of Xilinx products. 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Xilinx products are not designed or intended to be fail-safe or for use in any application requiring fail-safe performance; you assume sole risk and liability for use of Xilinx products in Critical Applications:/warranty.htm#critapps.Revision HistoryThe following table shows the revision history for this document.Date Version Revision07/15/09 1.0Initial Xilinx release.08/19/09 1.1•Added Appendix B, VITA 57.1 FMC LPC Connector Pinout.•Updated Figure1-17.•Updated Table1-4, Table1-19, and Table1-22.•Added introductory paragraph to Appendix C, SP601 Master UCF.•Miscellaneous typographical edits and new user guide template.05/17/10 1.2•Updated Figure1-1, Figure1-2, Figure1-14, Figure1-18, Table1-9, Table1-1,Table1-11, and Table1-16.•Added Figure1-7, Figure1-8, and Table1-13.•Updated 9. VITA 57.1 FMC-LPC Connector, page25, Appendix B, VITA 57.1 FMCLPC Connector Pinout, and Appendix C, SP601 Master UCF.06/16/10 1.3Reversed order of 15. Configuration Options and 16. Power Management. Updated 1.Spartan-6 XC6SLX16-2CSG324 FPGA and 2. 128 MB DDR2 Component Memory. AddedTable1-26. Added UG394, Spartan-6 FPGA Power Management User Guide to Appendix D,References.09/24/10 1.4Added Power System Test Points, including Table1-25.02/16/11 1.5Added note and revised header description to indicate the I/Os support LVCMOS25signaling on page34. Revised oscillator manufacturer information from Epson to SiTimeon page page23 and page51.07/18/11 1.6Corrected wording from “PPM frequency jitter” to “PPM frequency stability” in sectionOscillator (Differential), page23. Added Table1-15, page27.09/26/12 1.7Added Regulatory and Compliance Information, page53.SP601 Hardware User Guide UG518 (v1.7) September 26, 2012SP601 Hardware User Guide 3UG518 (v1.7) September 26, 2012Revision History . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2Preface: About This GuideGuide Contents . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5Additional Documentation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5Additional Support Resources . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6Chapter 1: SP601 Evaluation BoardOverview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7Additional Information. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8Block Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9Related Xilinx Documents . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9Detailed Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 101. Spartan-6 XC6SLX16-2CSG324 FPGA. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11I/O Voltage Rails . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 122. 128 MB DDR2 Component Memory . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 123. SPI x4 Flash . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 154. Linear Flash BPI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 175. 10/100/1000 Tri-Speed Ethernet PHY . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 196. USB-to-UART Bridge. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 217. IIC Bus . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 228-Kb NV Memory . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 228. Clock Generation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23Oscillator (Differential). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23Oscillator Socket (Single-Ended, 2.5V or 3.3V) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24SMA Connectors (Differential). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 249. VITA 57.1 FMC-LPC Connector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2510. Status LEDs. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2811. FPGA Awake LED and Suspend Jumper. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2912. FPGA INIT and DONE LEDs. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3013. User I/O . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3114. FPGA_PROG_B Pushbutton Switch . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3515. Configuration Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36JTAG Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3616. Power Management. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 37AC Adapter and 5V Input Power Jack/Switch . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 37Onboard Power Supplies . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 37Power System Test Points . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 38Table of ContentsAppendix A: Default Jumper and Switch SettingsAppendix B: VITA 57.1 FMC LPC Connector PinoutAppendix C: SP601 Master UCFAppendix D: ReferencesAppendix E: Regulatory and Compliance InformationDirectives. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 53Standards. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 53 Electromagnetic Compatibility . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 53Safety . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 53 Markings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 54 SP601 Hardware User GuideUG518 (v1.7) September 26, 2012SP601 Hardware User Guide 5UG518 (v1.7) September 26, 2012PrefaceAbout This GuideThis manual accompanies the Spartan®-6 FPGA SP601 Evaluation Board and contains information about the SP601 hardware and software tools.Guide ContentsThis manual contains the following chapters:•Chapter 1, SP601 Evaluation Board , provides an overview of the SP601 evaluation board and details the components and features of the SP601 board.•Appendix A, Default Jumper and Switch Settings .•Appendix B, VITA 57.1 FMC LPC Connector Pinout .•Appendix C, SP601 Master UCF .•Appendix D, References .Additional DocumentationThe following documents are available for download at /products/spartan6.•Spartan-6 Family OverviewThis overview outlines the features and product selection of the Spartan-6 family.•Spartan-6 FPGA Data Sheet: DC and Switching CharacteristicsThis data sheet contains the DC and switching characteristic specifications for the Spartan-6 family.•Spartan-6 FPGA Packaging and Pinout SpecificationsThis specification includes the tables for device/package combinations and maximum I/Os, pin definitions, pinout tables, pinout diagrams, mechanical drawings, and thermal specifications.•Spartan-6 FPGA Configuration User GuideThis all-encompassing configuration guide includes chapters on configuration interfaces (serial and parallel), multi-bitstream management, bitstream encryption, boundary-scan and JTAG configuration, and reconfiguration techniques.•Spartan-6 FPGA SelectIO Resources User GuideThis guide describes the SelectIO™ resources available in all Spartan-6 devices.•Spartan-6 FPG A Clocking Resources User GuidePreface:About This GuideThis guide describes the clocking resources available in all Spartan-6 devices,including the DCMs and PLLs.•Spartan-6 FPGA Block RAM Resources User GuideThis guide describes the Spartan-6 device block RAM capabilities.•Spartan-6 FPGA DSP48A1 Slice User GuideThis guide describes the architecture of the DSP48A1 slice in Spartan-6FPGAs andprovides configuration examples.•Spartan-6 FPGA Memory Controller User GuideThis guide describes the Spartan-6 FPGA memory controller block, a dedicatedembedded multi-port memory controller that greatly simplifies interfacingSpartan-6FPGAs to the most popular memory standards.•Spartan-6 FPGA PCB Designer’s GuideThis guide provides information on PCB design for Spartan-6 devices, with a focus onstrategies for making design decisions at the PCB and interface level.Additional Support ResourcesTo search the database of silicon and software questions and answers or to create atechnical support case in WebCase, see the Xilinx website at:/support. SP601 Hardware User GuideUG518 (v1.7) September 26, 2012Chapter1 SP601 Evaluation BoardOverviewThe SP601 board enables hardware and software developers to create or evaluate designstargeting the Spartan®-6 XC6SLX16-2CSG324 FPGA.The SP601 provides board features for evaluating the Spartan-6 family that are common tomost entry-level development environments. Some commonly used features include aDDR2 memory controller, a parallel linear flash, a tri-mode Ethernet PHY, general-purposeI/O (GPIO), and a UART. Additional functionality can be added through the VITA 57.1.1expansion connector. Features, page8 provides a general listing of the board features withdetails provided in Detailed Description, page10.Additional InformationAdditional information and support material is located at:•/sp601This information includes:•Current version of this user guide in PDF format•Example design files for demonstration of Spartan-6 FPGA features and technology•Demonstration hardware and software configuration files for the SP601 linear and SPImemory devices•Reference Design Files•Schematics in PDF format and DxDesigner schematic format•Bill of materials (BOM)•Printed-circuit board (PCB) layout in Allegro PCB format•Gerber files for the PCB (Many free or shareware Gerber file viewers are available onthe internet for viewing and printing these files.)•Additional documentation, errata, frequently asked questions, and the latest newsFor information about the Spartan-6 family of FPGA devices, including product highlights,data sheets, user guides, and application notes, see the Spartan-6 FPGA website at/support/documentation/spartan-6.htm.SP601 Hardware User Guide 7 UG518 (v1.7) September 26, 2012Chapter 1:SP601 Evaluation BoardFeaturesThe SP601 board provides the following features (see Figure1-2 and Table1-1):• 1. Spartan-6 XC6SLX16-2CSG324 FPGA• 2. 128 MB DDR2 Component Memory• 3. SPI x4 Flash• 4. Linear Flash BPI• 5. 10/100/1000 Tri-Speed Ethernet PHY•7. IIC Bus•8Kb NV memory•External access 2-pin header•VITA 57.1 FMC-LPC connector•8. Clock Generation•Oscillator (Differential)•Oscillator Socket (Single-Ended, 2.5V or 3.3V)•SMA Connectors (Differential)•9. VITA 57.1 FMC-LPC Connector•10. Status LEDs•FPGA_AWAKE•INIT•DONE•13. User I/O•User LEDs•User DIP switch•User pushbuttons•GPIO male pin header•14. FPGA_PROG_B Pushbutton Switch•15. Configuration Options• 3. SPI x4 Flash (both onboard and off-board)• 4. Linear Flash BPI•JTAG Configuration•16. Power Management•AC Adapter and 5V Input Power Jack/Switch•Onboard Power Supplies SP601 Hardware User GuideUG518 (v1.7) September 26, 2012Related Xilinx DocumentsBlock DiagramFigure1-1 shows a high-level block diagram of the SP601 and its peripherals.Figure 1-1:SP601 Features and BankingRelated Xilinx DocumentsPrior to using the SP601 Evaluation Board, users should be familiar with Xilinx resources.See the following locations for additional documentation on Xilinx tools and solutions:•ISE: /ise•Answer Browser: /support•Intellectual Property: /ipcenterSP601 Hardware User Guide 9 UG518 (v1.7) September 26, 2012SP601 Hardware User GuideUG518 (v1.7) September 26, 2012Chapter 1:SP601 Evaluation BoardDetailed DescriptionFigure 1-2 shows a board photo with numbered features corresponding to Table 1-1 and the section headings in this document.The numbered features in Figure 1-2 correlate to the features and notes listed in Table 1-1.Figure 1-2:SP601 Board PhotoUG518_02_09100912843126137115109141581316Table 1-1:SP601 FeaturesNumberFeatureNotesSchematic Page1 Spartan-6 FP G A XC6SLX16-2CS G 3242DDR2 Component Elpida EDE1116ACBG 1Gb DDR2SDRAM53SPI x4 Flash and Headers SPI select and External Headers 84Linear Flash BPIStrataFlash 8-bit (J3 device), 3 pins shared w/ SPI x481. Spartan-6 XC6SLX16-2CSG 324 FPGAA Xilinx Spartan-6 XC6SLX16-2CSG324 FPGA is installed on the SP601 Evaluation Board.ReferencesSee the Spartan-6 FPGA Data Sheet . [Ref 1]ConfigurationThe SP601 supports configuration in the following modes:•Master SPI x4•Master SPI x4 with off-board device •BPI•JTAG (using the included USB-A to Mini-B cable)For details on configuring the FPGA, see 15. Configuration Options .The Mode DIP switch SW2 is set to M[1:0] = 01 Master SPI default.ReferencesSee the Spartan-6 FPGA Configuration User Guide for more information. [Ref 2]510/100/1000 Ethernet PHY GMII Marvell Alaska PHY76RS232 UART (USB Bridge)Uses CP2103 Serial-to-USB connection 107IICGoes to Header and VITA 57.1 FMC 108Clock, socket, SMA Differential, Single-Ended, Differential 99VITA 57.1 FMC-LPC connector LVDS signals, clocks, PRSNT 610LEDs Ethernet PHY Status711LED, Header FPGA Awake LED, Suspend Header 812LEDs FPGA INIT, DONE 913LED User I/O (active-High)9DIP SwitchUser I/O (active-High)9PushbuttonUser I/O, CPU_RESET (active-High)912-pin (8 I/O) Header6 pins x 2 male header with 8 I/Os (active-High)1014Pushbutton FPGA_PROG_B915USB JTAG Cypress USB to JTAG download cable logic14, 1516Onboard PowerPower Management11,12,13Table 1-1:SP601 Features (Cont’d)NumberFeatureNotesSchematic PageSP601 Hardware User Guide I/O Voltage RailsThere are four available banks on the LX16-CSG324 device. Banks 0, 1, and 2 are connected for 2.5V I/O. Bank 3 is used for the 1.8V DDR2 component memory interface of Spartan-6 FPGA’s hard memory controller. The voltage applied to the FPGA I/O banks used by the SP601 board is summarized in Table 1-2.ReferencesSee the Spartan-6 FPGA documentation for more information at /support/documentation/spartan-6.htm .2. 128 MB DDR2 Component MemoryThere are 128MB of DDR2 memory available on the SP601 board. A 1-Gb ElpidaEDE1116ACBG (84-ball) DDR2 memory component is accessible through Bank 3 of the LX16 device. The Spartan-6 FPGA hard memory controller is used for data transfer across the DDR2 memory interface’s 16-bit data path using SSTL18 signaling. The SP601 board supports the “standard” VCCINT setting of 1.20V ± 5%. This setting provides the standard memory controller block (MCB) performance of 625Mb/s for DDR2 memory in a -2 speed grade device. Signal integrity is maintained through DDR2 resistor terminations and memory on-die terminations (ODT), as shown in Table 1-3 and Table 1-4.Table 1-2:I/O Voltage Rail of FPGA BanksFPGA BankI/O Voltage Rail0 2.5V 1 2.5V 2 2.5V 31.8VTable 1-3:Termination Resistor RequirementsSignal NameBoard TerminationOn-Die TerminationDDR2_A[14:0]49.9Ω to V TT DDR2_BA[2:0]49.9Ω to V TT DDR2_RAS_N 49.9Ω to V TT DDR2_CAS_N 49.9Ω to V TT DDR2_WE_N 49.9Ω to V TT DDR2_CS_N 100Ω to GND DDR2_CKE 4.7K Ω to GND DDR2_ODT 4.7K Ω to GNDDDR2_DQ[15:0]ODT DDR2_UDQS[P ,N], DDR2_LDQS[P ,N]ODT DDR2_UDM, DDR2_LDMODTTable 1-5 shows the connections and pin numbers for the DDR2 Component Memory.DDR2_CK[P ,N]100Ω differential at memorycomponentNotes:1.Nominal value of V TT for DDR2 interface is 0.9V .Table 1-4:FPGA On-Chip (OCT) Termination External Resistor Requirements FPGA U1 PinFPGA Pin NumberBoard Connection for OCTZIO L6No Connect RZQC2100Ω to GROUNDTable 1-5:DDR2 Component Memory ConnectionsFPGA U1 PinSchematic Net Name Memory U2Pin NumberPin NameJ7DDR2_A0M8A0J6DDR2_A1M3A1H5DDR2_A2M7A2L7DDR2_A3N2A3F3DDR2_A4N8A4H4DDR2_A5N3A5H3DDR2_A6N7A6H6DDR2_A7P2A7D2DDR2_A8P8A8D1DDR2_A9P3A9F4DDR2_A10M2A10D3DDR2_A11P7A11G6DDR2_A12R2A12L2DDR2_DQ0G8DQ0L1DDR2_DQ1G2DQ1K2DDR2_DQ2H7DQ2K1DDR2_DQ3H3DQ3H2DDR2_DQ4H1DQ4H1DDR2_DQ5H9DQ5J3DDR2_DQ6F1DQ6Table 1-3:Termination Resistor Requirements (Cont’d)Signal NameBoard Termination On-Die TerminationSP601 Hardware User Guide ReferencesSee the Elpida DDR2 SDRAM Specifications for more information. [Ref 11]Also, see the Spartan-6 FPGA Memory Controller User Guide . [Ref 3]J1DDR2_DQ7F9DQ7M3DDR2_DQ8C8DQ8M1DDR2_DQ9C2DQ9N2DDR2_DQ10D7DQ10N1DDR2_DQ11D3DQ11T2DDR2_DQ12D1DQ12T1DDR2_DQ13D9DQ13U2DDR2_DQ14B1DQ14U1DDR2_DQ15B9DQ15F2DDR2_BA0L2BA0F1DDR2_BA1L3BA1E1DDR2_BA2L1BA2E3DDR2_WE_B K3WE L5DDR2_RAS_B K7RAS K5DDR2_CAS_B L7CAS K6DDR2_ODT K9ODT G3DDR2_CLK_P J8CK G1DDR2_CLK_N K8CK H7DDR2_CKE K2CKE L4DDR2_LDQS_P F7LDQS L3DDR2_LDQS_N E8LDQS P2DDR2_UDQS_P B7UDQS P1DDR2_UDQS_N A8UDQS K3DDR2_LDM F3LDM K4DDR2_UDMB3UDMTable 1-5:DDR2 Component Memory Connections (Cont’d)FPGA U1 PinSchematic Net Name Memory U2Pin NumberPin Name3. SPI x4 FlashThe Xilinx Spartan-6 FPGA hosts a SPI interface which is accessible to the Xilinx iMPACTconfiguration tool. The SPI memory device operates at 3.0V; the Spartan-6 FPGA I/Os are3.3V tolerant and provide electrically compatible logic levels to directly access the SPI flashthrough a 2.5V bank. The XC6SLX16-2CSG324 is a master device when accessing anexternal SPI flash memory device.The SP601 SPI interface has two parallel connected configuration options (see Figure1-4):an SPI X4 (Winbond W25Q64VSFIG) 64-Mb flash memory device and a flashprogramming header (J12). J12 supports a user-defined SPI mezzanine board. The SPIconfiguration source is selected via SPI select jumper J15. For details on configuring theFPGA, see 15. Configuration Options.Figure 1-3:J12 SPI Flash Programming HeaderSP601 Hardware User Guide ReferencesSee the Winbond Serial Flash Memory Data Sheet for more information. [Ref 12]See the XPS Serial Peripheral Interface Data Sheet for more information. [Ref 4]Figure 1-4:SPI Flash Interface TopologyTable 1-6:SPI x4 Memory ConnectionsFPGA U1 PinSchematic Net Name SPI MEM U17SPI HDR J12Pin #Pin NamePinNumberPin NameV2FPGA_PROG_B 1V14FPGA_D2_MISO31IO3_HOLD_B 2T14FPGA_D1_MISO2_R 9IO2_WP_B3V3SPI_CS_B4TMS T13FPGA_MOSI_CSI_B_MISO015DIN 5TDI R13FPGA_D0_DIN_MISO_MISO18IO1_DOUT6TDO R15FPGA_CCLK16CLK7TCK 8GND 9VCC3V3J15.2SPIX4_CS_B 7CS_B4. Linear Flash BPIAn 8-bit (16MB) Numonyx linear flash memory (TE28F128J3D-75) (J3D type) is used toprovide non-volatile bitstream, code, and data storage. The J3D devices operate at 3.0V; theSpartan-6 FPGA I/Os are 3.3V tolerant and provide electrically compatible logic levels todirectly access the linear flash BPI through a 2.5V bank. For details on configuring theFPGA, see 15. Configuration Options.Figure 1-5:Linear Flash BPI InterfaceTable 1-7:BPI Memory ConnectionsFPGA U1 Pin Schematic Net Name BPI Memory U10Pin Number Pin Name K18FLASH_A032A0K17FLASH_A128A1J18FLASH_A227A2J16FLASH_A326A3G18FLASH_A425A4G16FLASH_A524A5H16FLASH_A623A6H15FLASH_A722A7H14FLASH_A820A8H13FLASH_A919A9F18FLASH_A1018A10F17FLASH_A1117A11K13FLASH_A1213A12K12FLASH_A1312A13E18FLASH_A1411A14E16FLASH_A1510A15G13FLASH_A168A16SP601 Hardware User Guide Note:Memory U10 pin 56 address A24 is not connected on the 16 MB device. It is made availablefor larger density devices.ReferencesSee the Numonyx Embedded Flash Memory Data Sheet for more information. [Ref 13]In addition, see the Spartan-6 FPGA Configuration User Guide for more information. [Ref 2]H12FLASH_A177A17D18FLASH_A186A18D17FLASH_A195A19G14FLASH_A204A20F14FLASH_A213A21C18FLASH_A221A22C17FLASH_A2330A23F16FLASH_A2456A24R13FPGA_D0_DIN_MISO_MISO133DQ0T14FPGA_D1_MISO235DQ1V14FPGA_D2_MISO338DQ2U5FLASH_D340DQ3V5FLASH_D444DQ4R3FLASH_D546DQ5T3FLASH_D649DQ6R5FLASH_D751DQ7M16FLASH_WE_B 55WE_B L18FLASH_OE_B 54OE_B L17FLASH_CE_B14CE0B3FMC_PWR_GOOD_FLASH_RST_B16RP_BTable 1-7:BPI Memory Connections (Cont’d)FPGA U1 PinSchematic Net NameBPI Memory U10Pin NumberPin Name5. 10/100/1000 T ri-Speed Ethernet PHYThe SP601 uses the onboard Marvell Alaska PHY device (88E1111) for Ethernetcommunications at 10, 100, or 1000 Mb/s. The board supports a GMII/MII interface fromthe FPGA to the PHY. The PHY connection to a user-provided Ethernet cable is through aHalo HFJ11-1G01E RJ-45 connector with built-in magnetics.On power-up, or on reset, the PHY is configured to operate in GMII mode with PHYaddress 0b00111 using the settings shown in Table1-8. These settings can be overwrittenvia software commands passed over the MDIO interface.Table 1-8:PHY Configuration PinsPin Connection onBoardBit[2]Definition and ValueBit[1]Definition and ValueBit[0]Definition and ValueCFG0V CC 2.5V PHYADR[2] = 1PHYADR[1] = 1PHYADR[0] = 1 CFG1Ground ENA_PAUSE = 0PHYADR[4] = 0PHYADR[3] = 0 CFG2V CC 2.5V ANEG[3] = 1ANEG[2] = 1ANEG[1] = 1 CFG3V CC 2.5V ANEG[0] = 1ENA_XC = 1DIS_125 = 1 CFG4V CC 2.5V HWCFG_MD[2] = 1HWCFG_MD[1] = 1HWCFG_MD[0] = 1 CFG5V CC 2.5V DIS_FC = 1DIS_SLEEP = 1HWCFG_MD[3] = 1 CFG6PHY_LED_RX SEL_BDT = 0INT_POL = 175/50Ω = 0 Table 1-9:Ethernet PHY ConnectionsFPGA U1 Pin Schematic Net NameU3 M88E111Pin Number Pin NameP16PHY_MDIO33MDIO N14PHY_MDC35MDC J13PHY_INT32INT_B L13PHY_RESET36RESET_B M13PHY_CRS115CRS L14PHY_COL114COL L16PHY_RXCLK7RXCLK P17PHY_RXER8RXER N18PHY_RXCTL_RXDV4RXDV M14PHY_RXD03RXD0 U18PHY_RXD1128RXD1 U17PHY_RXD2126RXD2 T18PHY_RXD3125RXD3 T17PHY_RXD4124RXD4 N16PHY_RXD5123RXD5SP601 Hardware User GuideReferencesSee the Marvell Alaska Gigabit Ethernet Transceivers product page for more information.[Ref 16]Also, see the LogiCORE™ IP Tri-Mode Ethernet MAC User Guide . [Ref 5]N15PHY_RXD6121RXD6P18PHY_RXD7120RXD7A9 PHY_TXC_G TPCLK 14G TXCLKB9 PHY_TXCLK 10TXCLK A8 PHY_TXER 13TXER B8 PHY_TXCTL_TXEN 16TXEN F8 PHY_TXD018TXD0G 8 PHY_TXD119TXD1A6 PHY_TXD220TXD2B6 PHY_TXD324TXD3E6 PHY_TXD425TXD4F7 PHY_TXD526TXD5A5 PHY_TXD628TXD6C5 PHY_TXD729TXD7Table 1-9:Ethernet PHY Connections (Cont’d)FPGA U1 PinSchematic Net NameU3 M88E111Pin NumberPin Name6. USB-to-UART BridgeThe SP601 contains a Silicon Labs CP2103GM USB-to-UART bridge device (U4) which allows connection to a host computer with a USB cable. The USB cable is supplied in this evaluation kit (Type A end to host computer, Type Mini-B end to SP601 connector J9). Table 1-10 details the SP601 J9 pinout.Xilinx UART IP is expected to be implemented in the FPGA fabric. The FPGA supports the USB-to-UART bridge using four signal pins, transmit (TX), receive (RX), Request to Send (RTS), and Clear to Send (CTS).Silicon Labs provides royalty-free Virtual COM Port (VCP) drivers which permit the CP2103GM USB-to-UART bridge to appear as a COM port to host computercommunications application software (for example, HyperTerm or TeraTerm). The VCP device driver must be installed on the host PC prior to establishing communications with the SP601. Refer to the SP601 Getting Started Guide for driver installation instructions.ReferencesRefer to the Silicon Labs website for technical information on the CP2103GM and the VCP drivers.In addition, see some of the Xilinx UART IP specifications at:•/support/documentation/ip_documentation/xps_uartlite.pdf •/support/documentation/ip_documentation/xps_uart16550.pdfTable 1-10:USB Type B Pin Assignments and Signal DefinitionsUSB ConnectorPinSignal NameDescription1VBUS +5V from host system (not used)2USB_DATA_N Bidirectional differential serial data (N-side)3USB_DATA_P Bidirectional differential serial data (P-side)4GROUNDSignal groundTable 1-11:CP2103GM ConnectionsFPGA U1 PinUART Functionin FPGA Schematic Net Name U4 CP2103GMPinUART Function in CP2103GM U10RTS, output USB_1_CTS 22CTS, input T5CTS, input USB_1_RTS 23RTS, output L12TX, data out USB_1_RX 24RXD, data in K14RX, data inUSB_1_TX25TXD, data out。

一、X62W万能铳床电气统造对于象之阳早格格创做X62W型卧式一般铳床电气本理图.该机床公有三台电效果：Ml 是主轴电效果，正在电气上需要真止起动统造与造就赶快停转统造，为了完毕族锦与IR铳，还需要正反转统造,别的还需主轴脚时造动以完毕变速收留历程.M2是处事台进给电效果，X62W万能烧床有火仄处事台战圆形处事台，其中火仄处事台不妨真止纵背进给（有安排二个进给目标）、横背进给（有前后二个进给目标）战降落进给（有上下二个进给目标），圆处事台转化等四个疏通，铢床目前只可举止一个进给疏通（一般铢床上没有克没有及真止二个或者以上多个进给疏通的妖现），通过火仄处事台收配脚柄、圆处事台变换启关、纵背进给收配脚桶、十字复式收配脚柄等选定，选定后M2的正反转便是所选定让给疏通的二个进给目标.YA是赶快牵引电磁铁.当赶快牵引电磁铁线圈通电后，牵引电磁铁通过牵引赶快离合器中的对接统造部件，使火仄处事台与赴怏离合器对接真止赴怏移动，当YA断电时，火仄处事台睨后赶快离合器，回复缓速移现.M3是热切泵电效果，唯有正在主轴电效果Ml起动后，热却泵电效果才搞起现.X62W月能铳床电气元件标记及其功能电气元件标记称呼及用途电气元件标记称呼及用途Ml主轴电效果SQ6进给变速统造启关M2进给电效果SQ7主轴变速造动启关M3热却泵电效果SAl圆处事台变换启关KMl热划泵电效果起停统造交战器SA3热划泵变换启关KM2反接造动统造交微器SA4照明灯启关KM3主电效果起停统造交战器SA5主轴换背启关KM4、KM5进给电效果正转、反转统造交战器QS电源断绝启关KM6快移统造交战器SBkSB2分段正在二处的主轴起动按钮KS速度继电器SB3、SB4分设正在二处的主轴停止按钮YA赶快移助电磁铁线圈SB5、SB6处事台赶快移动按钮R限流电阻FRl主轴电效果热继电器SQI处事台背左进给路程启关FR2进给电效果热维电器SQ2处事台背左进给珞程启关FR3热却泵热继电器SQ3处事台背前、进与进给珞程启关TC变压器SQ4处事台背后、背下进给路程启关FU1~FU4熔断二、能源电路识读1.主轴转化电路三相电源通过FUl熔断器，由电源断绝启关QS引进X62W万能铳床的主电路.正在主轴转化区中，FRl是热继电器的加热元件，起过载呵护效率.KM3主触头关合、KM2主触头断启时，SA5推扰启关有厦铳、停、题籍三个变换位子，分刖统造Ml主电效果的正转、停、反转.一往KM3主触头断启，KM2主触头关合，则电源电流经KM2主触头、二相限流电阻R正在KS速度继电器的机共下真止反接造动.与主电效果共轴拆置的KS速度维电器检测元件对于主电效果举止速度监控，根据主电效果的速度对于接正在统造线路中的速度维电器触头KSLKS2的关合与断启举止统造.2.进给疏通电路KM4主触头关合、KM5主触头断启时，M2电效果正转.反之KM4主触头断后、KM5主触头关适时，则M2电效果反转.M2正反转功夫，KM6主触头处于断后状态时，处事台通过齿轮变速箱中的缓速传动门路与M2电效果相联，处事台做缓速自动进给；一往KM6主触头关合，则YA赴快进给磁铁通电，处事台通过电磁离合器与齿轮变速箱中的赶快疏通传研门路与M2电效果相联，处事台做赶快移动.3.热却泵电路KMl主触头关合，M3热却泵电效果单背运止；KMl断启，则M3停转.主电路中，MkM2、M3均为齐压起动.三、统造线路识读TC变压器的一次侧接进接流电压，二次恻分别接⅛127V与36V二路二相接流电，其中36V供给照明线路,而127V则供给统造线路使用.1.主轴电效果统造1）主轴电效果齐压起动主轴电效果Ml采与齐压起动办法，起动前由推扰启关SA5采用电效果转背，统造线珞中SQ71断后、SQ72关适时主输电效果处正在仄常处事办法.按下SBl或者SB2,通过3、8、12、SBl（或者SB2）、13、14收路，KM3线圈接通，而16区的KM3常启辅帮触头关合产死自能.主轴转化电路中果KM3主触头关合，主电效果Ml 按SA5所选转背起动.2）主轴电弱体造助统造按下SB3或者SB4时，KM3线圈果天圆收路断路而断电，引导主轴转仇电路中KM3主触头断后.由于统造线路的U区与13区别别接进了二个受KS速度维电器统造的触头KSl（正背触头）、KS2（反背触头）.按下SB3或者SB4的共时，KSl或者KS2触头中总有一个触头会果主轴转速较下而处于关合状态，即正转造动时KSl关合，而反转造动时KS2关合.正转造动时通过8、SB3、11、9、KM3、10收路，反转造动时通过8、SB4、9、KM3、10收路，皆将使KM2线圈通电，引导主轴转化电路中KM2主触头关合.主轴转化电路中KM3主触头断启的共时，KM2主触头关合，主轴电效果Ml中接进通过限流的反接造动电流，垓电流正在Ml电效果转子中爆收造研转矩，对消KM3主触头断后后转子上的惯性转矩使Ml赴怏落速.当Ml转速靠近整速时，本先脆持关合的KSl或者KS2触头将断启，KM2线圈会果天圆收路断珞而断电，进而即时卸除转子中的造动转矩，使主轴电效果MI停转.SBl与SB3、SB2与SB4二对于按钿分别位于X62W万能铳床二个收配里板上，真止主轴电效果MI的二天收配统造.3）主轴变速造动统造主轴变速时既可正在主轴停转时举止，也可有主轴运止时举止.当主轴处于运止状态，推出变速收配脚桶将使变速启关SQ71、SQ72触动，即SQ71关合、SQ72断启.SQ72率先断启12区中的KM3线圈天圆收路，而后SQ71通过3、7、KM3、10收路，使15区中的KM2线圈通电.主轴转化电路中KM3主触头率先断启、KM2主触头随后关合，主电效果Ml反接造动，转速赶快落矮并停车，包管主轴变速历程成功举止.主轴变速完毕后，推回变速收配脚柄，KM2主触头率先断合，KM3主触头随后关合、主轴电效果Ml正在新转速下沉新运止.2.进给电效果M2统造唯有14-16区中的SBUSB2、KM3三个触头中的一个触头脆持关适时，KM3线圈才搞通电，而线圈KM3通电之后，进给统造区战赶快进给区的统造线珞部分才搞接进电流，即X62W 万能扰床的让给疏通与刀架赶怏疏通惟有正在主输电效果起现运止后才搞举止.1）火仄处事台以背进给统造火仄处事台安排纵背进给前，机床把持里板上的十字复合脚桶报到“中间”位子,使处事台与横背前后进给板滞离合器、共时与上下降落进给板滞离合器脱启；而圆处事台变换启关SAl 置于“断启”位子，使圆处事台与圆处事台转化板滞离合器也处于脱启状态.以上收配完毕后，火仄处事台安排以背进给疏通便可通过纵背收配脚柄与路程启关SQlSSQ2推扰统造.纵背收配脚柄有左、停、左三个收配位子.当脚柄板到“中间”位子时，纵背板滞离合器脱启,路程启关SQll（19区）、SQ12（20区）、SQ21（21区）、SQ22（20区）没有受压，KM4与KM5线图均处于断电状态，主电路中KM4与KM5主触头断后，电效果M2没有克没有反转化，处事台处于停止状态.纵背脚柄扳到“左”位时,将台上纵背进给板滞离合器，使路程启关SQl压下（SQII关合、SQ12断启）.果SAl置于“断启”位,引导SAll关合，通过SQ62、SQ42、SQ32、SAlkSQlk17、18的收路使KM4线圈通电，电效果M2正转，处事台左移.纵背脚柄扳到“左”位时，将压下SQ2而使SQ21关合、SQ22断启，通过SQ62、SQ42、SQ32、SAll、SQ21、19、20的收路使KM5线圈通电，电效果M2反转，处事台左移.2）火仄处事台横背进给统造当纵背脚柄板到“中间”位子、圆形处事台变换启关置于“断启”位子时，SAlKSA13接通，处事台进给疏通便通过十字复合脚柄分歧处事位于采用以及SQ3、SQ4推优决定.十字复合即柄扳到“前”位时，将台上横背进给板滞离合器并压下SQ3而使SQ31关合、SQ32断启，果SAILSA13接通，S以经15、SA13s SQ22、SQI2、16、SAlKSQ31、17、18的收路使KM4线圈通电，电效果M2正转，处事台横背前移.十字复合脚柄板到“后”位时，将合上横背进给板滞离合器并压下SQ4而使SQ41关合、SQ42断启，果SA11、SA13接通，S以经15、SAI3、SQ22、SQ12s16、SAILSQ41、19、20的收路使KM5线圈通电，电效果M2反转，处事台横背后移.3）火仄处事台降落进给统造十字复合脚柄板到“上”位时，将合降下落进给板滞离合器并压下SQ3而使SQ31关合、SQ32断启，果SAlUSA13接通，S以经15、SAI3、SQ22、SQ12s16、SAILSQ31、KM5常关辅帮触头的收路使KM4线圈通电，电效果M2正转，处事台上移.十字复合脚柄板到“后”位时，将合降下落进给板滞离合器并压下SQ4而使SQ41关合、SQ42断启，果SAlUSA13接通,S以经15、SAI3、SQ22、SQI2、16、SAll s SQ4KKM4常关辅帮触头的收路使KM5线圈通电，电效果M2反转，处事台下移.4）火仄处事台正在安排、前后、上下任一个目标移幼时，若按下SB5或者SB6,KM6线圈通电，主电路中果KM6主触头关合引导牵引电磁铁线圈YA通电，于是火仄处事台接上赶快离合器而往所采用的目标赶快移研.当SB5或者SB6按钮紧后时，赶快移动停止并回复缓速移现状态.牵引电磁铁的结构睹图37.5）火仄处事台进给联城统造如果展展只对于纵背收配脚柄（采用左、左进给目标）与十字复合收配删柄（采用前、后、上、下进给目标）中的一个脚柄举止收配，必定只可采用一种进给疏通目标，而如果其时收配二个脚柄，便须通过电气互锁预防火仄处事台的疏通搞涉..由于受纵背脚柄统造的SQ22、SQ12常关触头串接正在20区的一条收路中，而受十字复合收配脚桶统造的SQ42、SQ32常关触头串接正在19区的一条收路中，假若共时收和纵背收配脚柄与十字复合收配脚桶，二条收珞将共时切断，KM4与KM5线圈均没有克没有及通电，处事台启动电效果M2便没有克没有及起动运止.6）火仄处事台进给变速统造变速时背中推出统造处事台变速的蘑菇形脚轮，将触动启关SQ6使SQ62率先断启，线圈KM4或者KM5断电；随后SQ61再关合，KM4线圈通过15、SQ61、17、KM4线圈、KM5常关触头收路通电，引导M2瞬时停转，随即正转.若M2处于停转状态，则上述收配引导M2正转.蘑菇形脚轮转化至所需进给速度后，再将脚轮推回本位，那一收配历程中，SQ61率先断启，SQ62随后关合，火仄处事台以新的进给速度移动.7）圆形处事台疏通统造为了夸大X62W万能就床的加工本领，可正在火仄处事台上拆置圆形处事台.使用圆形处事台时，处事台纵背收配脚柄与十字复合收配脚桶均处于中间位于，圆形处事台变换启关SAl则置于“接通”位，此时SA12关合、SAll战SAB断后，通过15、SQ62、SQ42、SQ32、16、SQl2、SQ22、SAI2、17、18的收路使KM4线圈通电，电效果M2正转并戴助圆形处事台单背回转，其回转速度也可通过变速脚轮安排.由于圆形处事台统造收相中串联了SQ42、SQ32、SQI2、SQ22等常关辅帮触头，S以扳动火仄处事台任性一个目标的进给收配脚桶时，皆将使圆形处事台停止回转疏通.3.热却泵电效果M3统造SA3变换后关置于“启”位时，KMl线圈通电，热却泵主电路中KMI主触头关合，热却泵电效果M3起动供液.而SA3置于“关”位时，M3停止供液.4.照明线路与呵护关节机床局部照明由TC变压器供给36V仄安电压，变换启关SA4统造照明灯.当主轴电效果MI过载时，FRI动做断启所有统造线路的电源；进给电效果M2过载时，由FR2动做断启自己的统造电源；而当热划泵电效果M3过我时，FR3动做便可断启M2、M3的统造电源.FUKFU2真止主电路的短路呵护，FU3真止统造电路的短路呵护，而FU4则用于真止照明线路的短路呵护.。

11RD断路器2A控制柜单相22RD断路器6A控制柜单相33RD断路器6A控制柜三相44RD断路器3A控制柜单相55RD断路器4A控制柜单相66RD断路器4A控制柜单相7ACZ开闸操作按钮控制柜无机房时有8ADZ限速器动作按钮控制柜无机房时有9AFW限速器复位按钮控制柜无机房时有10NICE-L-B默纳克一体化主控制板控制柜11PG-E默纳克一体化PG卡控制柜12AUQ限速器公共按钮控制柜无机房时有13BC抱闸接触器AC 110V控制柜14BK1～2抱闸行程开关曳引机15BY1控制变压器BK-950控制柜16BY236V变压器BK-200控制柜17DBR制动电阻控制柜无机房时放井道18DCC关门减速开关轿顶19DCL关门限位开关轿顶20DN轿箱节能继电器DC 24V轿顶21DN1机房节能继电器DC 24V控制柜22DOC开门减速开关轿顶23DOL开门限位开关轿顶24DZ1110V整流轿35A/1000V控制柜25DZ224V整流轿35A/1000V控制柜26EC1-ECn井道照明灯AC 220V井道27ECW透视窗井道照明灯AC 220V井道无机房时用28EK1井道照明开关250V/10A机房无机房时放控制柜29EK2井道照明开关250V/10A底坑30EK3透视窗井道照明开关250V/10A控制柜无机房时用31EL1轿顶36V照明灯AC 36V轿顶32EL2底坑36V照明灯AC 36V底坑33EL3轿厢照明灯AC 220V轿厢34EL4轿厢照明灯AC 220V轿厢35F1轿厢照明漏电开关10A机房电源箱无机房时放控制柜36F2井道照明漏电开关10A机房电源箱无机房时放控制柜37GD控制柜照明灯T5-8W　AC220控制柜无机房时用38GMJ关门继电器DC 24V门机货梯用39HAA警铃DC 12V井道40HAB超载蜂鸣器轿厢41HAD到站钟DC 24V轿顶42HC1-HCn指令灯轿厢43HCL关门灯轿厢44HD2-HDn下召灯召唤盒45HFN轿箱风扇 轿厢46HLP开门灯轿厢47HOL超载灯轿厢48HU1-HUn上召灯召唤盒49INS检修继电器DC　24V控制柜50JC主接触器AC 110V控制柜51KMJ开门继电器DC 24V门机货梯用52KAU到站钟继电器DC 24V控制柜53KM1UPS电源接触器AC 220V控制柜有停电应急时有54KM2停电应急运行接触器AC 220V控制柜有停电应急时有55KM3停电应急结束接触器AC 220V控制柜有停电应急时有56KFN控制柜风扇AC 220V控制柜57LBQ滤波器AC 380V控制柜58M曳引机机房59MDO/1MDO交流门电动机轿顶60MSJ门锁继电器AC 110V控制柜61MSK运行模式开关轿厢62OT-BC2抱闸板控制柜63PG旋转编码器机房64PHO-M对讲子机机房轿顶、底坑、值班室65PHO-S对讲母机轿厢66QF三相主电源空气开关AC 380V机房电源箱无机房时放控制柜67RZ3抱闸续流电阻机房68SBB警铃按钮轿厢69SBB1轿厢对讲按钮轿厢70SBC1-SBCn指令按钮轿厢71SBCD轿厢下行按钮轿厢72SBCL关门按钮轿厢73SBCU轿厢上行按钮轿厢74SBD2-SBDn下召按钮召唤盒75SBOP开门按钮轿厢76SBPD控制柜下行按钮控制柜77SBPS直驶按钮轿厢78SBPU控制柜上行按钮控制柜79SBTD轿顶下行按钮轿顶80SBTU轿顶上行按钮轿顶81SBU1-SBUn上召按钮召唤盒82SDQ下平层感应器轿顶83SHC轿厢照明开关轿厢84SHL底坑照明开关底坑85SHP电柜照明开关控制柜无机房时用86SHT轿顶照明开关轿顶87SLC关门到位开关轿顶88SLDL下极限开关井道89SLDT下限位开关井道90SLO开门到位开关轿顶91SLUL上极限开关井道92SLUT上限位开关井道93CTB-B轿厢控制板轿厢94CCB-A指令控制板轿厢95HCB-H召唤&显示板召唤盒&轿厢96提前开门控制板控制柜提前开门用97SMC/1SMC轿门锁轿厢98SMH1-SMHn1-N层门锁层门99SMQ1门区感应器1轿顶提前开门用100SMQ2门区感应器2轿顶提前开门用101SQE1光幕/触板开关轿厢102SQE2光幕/触板开关轿厢103SRC轿厢检修开关轿厢104SRK锁梯钥匙开关基站105SRP控制柜检修开关控制柜106SRT轿顶检修开关轿顶107SSAN安全钳开关轿顶108SSBB对重缓冲器开关底坑109SSBP夹绳器开关机房110SSCB轿厢缓冲器开关底坑111SSD下强减开关井道V<=1.75m/s112SSD1下强减开关1井道 1.75m/s<V<=2.5m/s 113SSD2下强减开关2井道V>2.5m/s114SSFU满载开关轿底115SSHM盘车急停开关曳引机116SSKM柜门开关控制柜117SSLL轻载开关轿底118SSLS限速器开关机房/井道119SSOL超载开关轿底货梯放机房绳头处120SSRG断绳保护开关底坑121SSU上强减开关井道V<=1.75m/s122SSU1上强减开关1井道 1.75m/s<V<=2.5m/s 123SSU2上强减开关2井道V>2.5m/s124STC轿厢急停开关轿厢125STL底坑急停开关底坑126STL-1下底坑急停开关底层厅门边127STL-2下底坑急停开关底层厅门边贯通门梯用128STP控制柜急停开关控制柜129STT轿顶急停开关轿顶130STT-1轿顶急停开关轿顶贯通门梯用131SUQ上平层感应器轿顶132SWD司机/自动转换开关轿厢133SWFI消防开关消防层134SWN风扇开关 轿厢135SWV独立运行开关 轿厢136T1时间继电器AC 220V控制柜有停电应急时有137T2时间继电器AC 220V控制柜有停电应急时有138TC曳引机热保护开关机房139TDJ停电检测接触器AC 220V控制柜停电应急及无机房时有140TPB开关电源控制柜141UFC主变频器控制柜142UFD门机变频器轿顶143UK UPS控制开关控制柜停电应急及无机房时有144UPS停电应急电源AC220V/AC220A控制柜停电应急及无机房时有145XQDZ限速器动作线圈AC 220V井道无机房时用146XQFW限速器复位线圈AC 220V井道无机房时用147XS1轿顶220V插座AC 220V/15A轿顶148XS2底坑220V插座AC 220V/15A底坑149XS3电柜220V插座AC 220V/15A控制柜无机房时用150XS4轿顶36V插座AC 36V/10A轿顶151XS5底坑36V插座AC 36V/10A底坑152XWJ相序继电器AC 380V控制柜153YBK抱闸线圈曳引机154YC辅助接触器AC 110V控制柜155YD应急灯DC 12V轿厢7778CN1SRC 767510X11X10X09NICE-3000-SC 79SRP SRT COM SBTD SBTU 8280SBCD SBCU SBPU Car Inspection Car Top Inspection Machine Room Inspection SBPD SRT INS 402401SRP 24VDC 408(正常)(正常)P05检修回路Inspection Circuit 广东菱王电梯有限公司GUANGDONG WINONE ELEVATOR CO.,LTD.Check Date Collate Technics Design Standard WES-MT02-01A ET02-YL05AET02-YL09A WES-MT02-01A 门机接线图（申菱）Door Motor Circuit 广东菱王电梯有限公司GUANGDONG WINONE ELEVATOR CO.,LTD.Check DateCollate TechnicsDesign Standard1M71M61GM 1KM NSFC01-01B3B2C3C21CMM W V U DCC 7DOC 6DCL 4DOL3218NL UFD1MDO1V6201202虚框内表示双开门接线PEPE V6MDO UFDL N8123DOL 4DCL 6DOC 7DCC U VW CMM C2C3B2B3NSFC01-01KM GM M6M7TO CTB-BTO CTB-B触板光幕虚框内表示双开门接线38ASEQ2SEQ1CMM385SEQ24623CMM 138A AC POWER INOUTPUT J1J3J1J1J3J1OUTPUT AC POWER IN虚框内表示双开门接线381CMM 3264SEQ15202201广东菱王电梯有限公司GUANGDONG WINONE ELEVATOR CO.,LTD.Check DateCollate TechnicsDesign StandardET02-YL10A WES-MT02-01A 门保护回路Door Safety Device Circuit TO CTB-BTO CTB-B3 N PE 380V / 50Hz ±7%~夹绳器限速器250B 250AEK1机房电源箱HDCA / CB / CC / CDHA HEHFF2F 1QF 井道上端站电缆NPE L3L2L1PEXAXBXC井道通讯电缆R03PE120116井道门锁电缆R02电机部分110136240241250251SSLSSSBP135R+R-118201202116811P+P-COM 8884111PE MQS MQX 808278COM PE40140224V+24V-CANH CANL 134135150138240241133134C00随行电缆（TVVBP40）井道底坑电缆R01R04COM PER05井道下端站电缆9086113132133MODH MODL24V-24V+P+P-R+R-81115132240241PE110138137Design StandardCollate TechnicsCheck DateGUANGDONG WINONE ELEVATOR CO.,LTD.广东菱王电梯有限公司Machine Room Wiring Diagram 机房布线图ET02-FX03A WES-MT02-01A 注：同步主机时SSBP 开关不用MQ 控制柜PE9492COM R06、R07井道通讯电缆大于2.5m/s 时用曳引机301302110110A 408301302StandardDesignTechnicsCollateDateCheckGUANGDONG WINONE ELEVATOR CO.,LTD.广东菱王电梯有限公司Car Top Wiring Diagram轿顶接线图ET02-JX01AWES-MT02-01A门区开关*提前开门及再平层时用平层门区开关轿厢风扇J N 1E L 4E L 3H F N J N 2前门光幕21P ES Q E 1N CCC M M 201202P E 38S S A N S M C116前轿门锁116AC 00安全钳超载、満载操纵箱P EM 01AM 06BM 05M 04M 03M 02T 01 T 03 T 04 T 05C M MS S F U S S O L39M Z轿顶检修箱134135241M Q XC O MS D Q M Q SS U Q M 01BM 04A 38AP E 202201C M M C N CS Q E 1P E12后门光幕S M QC O MM Q14075P H O -MP +对讲机电子到站钟(黑色)H A D轿顶照明、插座K N 1302E L 1X S 1S H T138S T T轿顶检修急停开关C O MS R T (正常)S B T DS B T U Y D 1Y D 2应急电源装置P -LN 12V 0V0V12V R +D S301108082241240P -P +R -接线端子前门门机201202M 07-1后门门机P EP EM 07-2M 7M 6C M M G M K M V 61V 61K M 1G M1C M M 1M 61M 7M 07A -2P EP EM 07A -1202201241241240408402110A 110BY J D402240D N 402节能继电器242L HX S 4V 6C O MC O MM Q107882801M 61K M 1G M C M M 1C M M K M G MM 6M 7X 1J N 2241240242J N 1201202203X 3138135134150139116118M Q X M Q S381M 737X 224-24+C A N LC A N H 39R -P +R +P -401811402L HD S 110A 110M Q 2M Q 14083013021V 638A 140116A M Z Y D 1Y D 2C M M 402Q Z 241轿厢照明M 06A1S M CM 02A后轿门锁118116AM 08注：开单门时短接以下点116A --118 140--150110B 401CA AMP-172347-1C AA M P -171358-1控 制 柜C BA M P -171358-1CB AMP-172347-1A M P -171892-1C DC CA M P -171358-1CC AMP-172347-1CD AMP-172096-1插接件针号图纸线号电缆线号图纸线号端子号接线端子轿顶检修箱T V V B 42(36*0.75+2*2P *0.75+2*1.0P E )随行电缆2134橙21341341135135橙313534150橙45138橙5橙71167橙6118612橙1213P E 黄绿线橙1120211橙10201109241橙9橙82408240241201202P E 118116138150138150240241116118201202P E 891011131267543122134576121110984312备用黄1黄482黄68280黄580828078黄77878408黄8408408黄9C O M 黄10C O M C O M P E 黄绿线P E P E M Q S 黄11M Q S M Q X 黄12M Q X M Q X M Q S 白1白2301白11302白12811白4811811P +白5P +R +P -白6白7P -R +402401R -白10白9白8402401R -R -401402P -R +P +24V +24V -C A N LC A N H 双绞1双绞2C A N H C A N L24V -24V +双绞4双绞3C A N H C A N L24V -24V +Standard DesignTechnicsCollate Date Check GUANGDONG WINONE ELEVATOR CO.,LTD.广东菱王电梯有限公司Cable List Diagram 1电缆查对表1ET02-JX05AWES-MT02-01A安全回路门锁回路轿厢电源门机电源慢上慢下检修公共线上平层下平层警铃对讲机D C 24V 通讯线110110110黄3黄2橙1白3备 注检修检修110A 110A 110A W P 3200系统接 M Q W P 3200系统作备用13A C 36V301302301302无提前开门作备用默纳克一体化M Q M Q M Q 提前开门9P E 屏蔽层P E P E 接地线备用备用备用备用备用备用备用备用备用备用备用备用备用备用备用备用备用备用备用备用COM 133PE 1321138690HF AMP-172096-1HFAMP-171892-1控 制 柜插接件针号图纸线号电缆线号图纸线号TVV7(6*0.75+1*2.0)井道下端站电缆2902138634113451325PE PE961336R05基层分支点COM 1下极限开关下限位开关下强减开关公共线下强减开关1上强减开关1公共线上强减开关上限位开关上极限开关8884111133PE 134COM 1COM 顶层分支点R04呼梯盒各层分支点控 制 柜R03AMP-171892-1HCHC AMP-172096-1插接件针号图纸线号电缆线号图纸线号TVVP4(2*2P *0.75)井道通讯电缆431224V+24V-MODL MODH 双绞1双绞2双绞4双绞3MODHMODL24V-24V+613469PEPE 5133541114384312882井道上端站电缆TVV7(6*0.75+1*2.0)图纸线号电缆线号图纸线号针号插接件控 制 柜AMP-171892-1HEHE AMP-172096-1Design StandardTechnicsCollate DateCheck GUANGDONG WINONE ELEVATOR CO.,LTD.广东菱王电梯有限公司Cable List Diagram 2电缆查对表2ET02-JX06A WES-MT02-01A 默纳克一体化用161718301161718控 制 柜R02AMP-171892-1HDHD AMP-172096-1插接件针号图纸线号电缆线号图纸线号井道门锁电缆912PE12011612PE 116120PETVV3(2*0.75+1*2.0)各层分支点厅门锁PE151421813211091013811137241132401268117155R -43R +1P -2井道底坑电缆TVV19(18*0.75+1*2.0)图纸线号电缆线号图纸线号针号插接件控 制 柜AMP-171838-1HAHA AMP-171828-1R01底坑接线箱对讲机警铃安全回路AC220VP +151234576121311109814PEP +P -R +R -15811240241137138110132PE 302301302AC36V屏蔽层9PE PE接地线接地线接地线接地线接地线COM XF 备用备用备用备用COM XF 消防开关电缆端子井道电缆R05图纸线号电缆线号电缆名称主电缆电缆线号图纸线号分支电缆29021H10下强减开关1（SSD1）COM 1COM90电缆端子井道电缆R04图纸线号电缆线号电缆名称主电缆电缆线号图纸线号分支电缆28821H09上强减开关1（SSU1）COM 1COM 88电缆端子井道电缆R05图纸线号电缆线号电缆名称主电缆电缆线号图纸线号分支电缆38621H07下强减开关（SSD ）COM 1COM86133PE1321132下极限开关（SLDL ）H05PEPEPE 521336分支电缆TVV3(2*0.75+1*2.0)图纸线号电缆线号主电缆电缆名称电缆线号图纸线号井道电缆R05电缆端子84COM 1COM 上强减开关（SSU ）H0312843分支电缆图纸线号电缆线号主电缆电缆名称电缆线号图纸线号井道电缆R04电缆端子111COM1COM 上限位开关（SLUT ）H02121114分支电缆TVV2(2*0.75)图纸线号电缆线号主电缆电缆名称电缆线号图纸线号井道电缆R04电缆端子134PE1331133上极限开关（SLUL ）H01PEPE PE 521346分支电缆TVV3(2*0.75+1*2.0)图纸线号电缆线号主电缆电缆名称电缆线号图纸线号井道电缆R04电缆端子电缆端子井道电缆R05图纸线号电缆线号电缆名称主电缆电缆线号图纸线号分支电缆411321H06下限位开关（SLDT ）COM 1COM113*1.75m/s 以上用StandardDesign TechnicsCollate DateCheck GUANGDONG WINONE ELEVATOR CO.,LTD.广东菱王电梯有限公司Cable List Diagram 3电缆查对表3ET02-JX07A WES-MT02-01A TVV2(2*0.75)TVV2(2*0.75)TVV2(2*0.75)TVV2(2*0.75)TVV2(2*0.75)端子端子端子端子端子CN1插接件针号轿厢显示板图纸线号端子号接线方式CTB-B/CN124V+24V-双绞3双绞4双绞2双绞124V-24V+24V-24V+分支电缆TVVP4(2*2P *0.75)图纸线号电缆线号T02T01电缆线号图纸线号TVVP4(2*2P *0.75)分支电缆24V+24V-CANH CANL 24V+24V-CANL CANH 双绞1双绞2双绞4双绞3CANHCANL 24V-24V+轿顶检修箱接线方式端子号图纸线号轿厢控制板针号插接件CN2端子端子端子端子端子警铃、对讲机P+P-R+R-401DS 811T04电缆线号图纸线号轿厢电缆811401DS 811DS4011243轿顶检修箱接线方式端子号图纸线号端子端子端子端子端子轿厢操纵箱端子端子端子P-P+R+R-R-R+P-P+7865到站钟ET02-JX08A WES-MT02-01A Cable List Diagram 4电缆查对表4GUANGDONG WINONE ELEVATOR CO.,LTD.广东菱王电梯有限公司DateCheck TechnicsCollate StandardDesign LH LHLH 后门关门限位后门控制板公共线1CMM 1M61M71M71CMM 1M61M71M61CMM 后门开门限位MODH MODLCANLCANH MODH MODL 2143默纳克一体化用默纳克一体化用满载MZ 15MZ MZ 端子端子端子端子端子端子端子端子端子端子端子超载信号轿厢检修运行388078103982PE 接地线PE PEPE1410111312823910788082807839104端子端子383878659光幕、触板信号关门限位控制板公共线CMM M6M7T03电缆线号图纸线号TVV16 (15*0.75+1*2.0)轿厢电缆M7CMM M6M7M6CMM 123轿顶检修箱接线方式端子号图纸线号端子端子端子轿厢操纵箱开门限位备用备用备用备用38A 38A 38A 后门光幕、触板信号PE 屏蔽层PE PE PE 屏蔽层PE PE 接地线接地线默纳克一体化用151GM 端子端子端子端子端子端子端子PE接地线PEPEPE14101113121KM 1V6GM V6KM TVV16 (15*0.75+1*2.0)1GM 1KM 1V6GM V6KM 1GM 1KM 1V6GM V6KM 前门门机后门门机2143公共线开关线PEM04电缆线号图纸线号TVV5(4*0.75+1*2.0)光幕触板电缆20220138CMM 202201CMM 381243轿顶检修箱接线方式端子号图纸线号端子端子端子端子端子光幕/触板开关PEPEPE门区开关端子端子端子图纸线号端子号接线方式轿顶检修箱21COM MQ COM 平层感应器电缆TVV3(3*0.75)图纸线号电缆线号M01A COM 门区开关公共线PEM02电缆线号图纸线号TVV3(2*0.75+1*2.0)轿门锁电缆PE 116116A PE 12PE 轿顶检修箱接线方式端子号图纸线号端子端子端子轿门锁门锁开关38CMM 201202光幕电源光幕电源202201CMM 38A PE PEPE后门光幕/触板开关端子端子端子端子端子图纸线号端子号接线方式轿顶检修箱342138A CMM 201202CMM 38A 201202光幕触板电缆TVV5(4*0.75+1*2.0)图纸线号电缆线号M04APE 开关线公共线Design StandardTechnicsCollate DateCheck GUANGDONG WINONE ELEVATOR CO.,LTD.广东菱王电梯有限公司Cable List Diagram 5电缆查对表5ET02-JX09A WES-MT02-01A 公共线上门区开关COM MQS M01B 电缆线号图纸线号TVV3(3*0.75)平层感应器电缆COM MQS MQS COM 123轿顶检修箱接线方式端子号图纸线号端子端子端子门区开关MQXMQXMQX 下门区开关有提前开门和再平层功能时配接门锁开关轿门锁端子端子端子图纸线号端子号接线方式轿顶检修箱PE 21PE118PE轿门锁电缆TVV3(2*0.75+1*2.0)图纸线号电缆线号M02APE 开双门时配接开双门时配接116A 116A 116A3接地线接地线接地线接地线116116A 116116A118118MQ MQ安全钳开关端子端子端子图纸线号端子号接线方式轿顶检修箱PE 21134135PE 135134PE 安全钳电缆TVV3(2*0.75+1*2.0)图纸线号电缆线号M03134135PE 安全钳开关CMMM05电缆线号图纸线号TVV3(3*0.75)称重电缆CMM 39MZ CMM MZ 39123轿顶检修箱接线方式端子号图纸线号端子端子端子超满轻载开关公共线MZ 39满载开关超载开关M06A电缆线号图纸线号TVV3(2*0.75+1*2.0)轿厢风扇电缆PE241JN1PEJN124112PE 轿顶检修箱接线方式端子号图纸线号端子端子端子轿厢风扇241JN1PE 轿厢风扇轿厢照明PE JN2241轿厢照明端子端子端子图纸线号端子号接线方式轿顶检修箱PE 21241JN2PEJN2241PE轿厢照明电缆TVV3(2*0.75+1*2.0)图纸线号电缆线号M06BStandardDesign TechnicsCollate DateCheck GUANGDONG WINONE ELEVATOR CO.,LTD.广东菱王电梯有限公司Cable List Diagram 6电缆查对表6ET02-JX10A WES-MT02-01A V>=2.0m/s 时配接HG AMP-172096-1HGAMP-171892-1控 制 柜插接件针号图纸线号电缆线号图纸线号TVV3(2*0.75+1*2.0)井道上端站电缆292213494PE PE 9R06分 支 点COM 1COM PE 9294PE COM 1R07PE 2井道下端站电缆TVV3(2*0.75+1*2.0)图纸线号电缆线号COM 上强减开关2（SSU2）下强减开关2（SSD2）接地线接地线接地线接地线WES-MT02-01A ET02-JX11A 电缆查对表7Cable List Diagram 7广东菱王电梯有限公司GUANGDONG WINONE ELEVATOR CO.,LTD.Check DateCollate TechnicsDesign Standard接地线PE PE PE PE M07-2电缆线号图纸线号TVV7 (6*0.75+1*2.0)门机电缆GM KM GM KM 1243轿顶检修箱接线方式端子号图纸线号端子端子端子端子端子门机控制板端子端子M6V6M7CMM PECMM M7M6V6PE65PEPEV6M6M7CMM KM GM 开门信号关门信号开门到位关门到位开关门公共线限位公共线接地线门机电源202201门机控制板端子端子端子图纸线号端子号接线方式轿顶检修箱21201202202201门机电缆TVV3 (2*0.75+1*2.0)图纸线号电缆线号M07-1M07A-1电缆线号图纸线号TVV3 (2*0.75+1*2.0)门机电缆20120220220112轿顶检修箱接线方式端子号图纸线号端子端子端子门机控制板PEPEPE PE 201202门机电源接地线开双门时配接开双门时配接接地线限位公共线开关门公共线关门到位开门到位关门信号开门信号1GM 1KM 1CMM 1M71M61V6PE PE 56PE1V61M61M71CMM PE1CMM 1M71V61M6端子端子门机控制板端子端子端子端子端子图纸线号端子号接线方式轿顶检修箱34211KM 1GM 1KM 1GM 门机电缆TVV7 (6*0.75+1*2.0)图纸线号电缆线号M07A-2应急灯YD27YD2YD2端子YD16YD1YD1TVV9 (8*0.75+1*2.0)PEPEPE PE 端子端子备用照明端子端子端子图纸线号端子号接线方式轿顶检修箱321242JN1JN2JN1242JN2轿厢电缆图纸线号电缆线号T05风扇风扇、照明公共线242JN1JN2备用备用458端子端子端子轿厢操纵箱备用接地线轿厢检修开关110110B 110110B 110110BWES-MT02-01A ET02-JX12A 电缆查对表8Cable List Diagram 8广东菱王电梯有限公司GUANGDONG WINONE ELEVATOR CO.,LTD.Check DateCollate TechnicsDesign Standard接地线PE PE PE PE 后门急停按钮端子端子端子图纸线号端子号接线方式轿顶检修箱21150140轿顶急停电缆TVV3 (2*0.75+1*2.0)图纸线号电缆线号M08插接件针号呼梯盒井道电缆R03图纸线号电缆线号电缆名称主电缆24V+24V-MODL MODH 屏蔽层双绞3双绞4双绞2双绞1MODH MODL 24V-24V+2134通讯分支电缆TVVP4(2*2P *0.75)图纸线号电缆线号HCN 默纳克一体化用116NMT PE1116厅门锁HDNPEPEPE 12NMT 2门锁分支电缆TVV3(2*0.75+1*2.0)图纸线号电缆线号主电缆电缆名称电缆线号图纸线号井道电缆R02电缆端子PEPEPE接地线开双门时配接后门急停按钮150140150140井道照明灯端子端子图纸线号端子号接线方式无机房控制柜21UK3UK2透视窗井道照明电缆TVV2 (2*0.75)图纸线号电缆线号M09无机房梯配接UK3UK2UK3UK2井道照明灯默纳克一体化用CN12143。

电气原理图的工作原理简述
电气原理图是用符号表示电路元件和连接线的图形符号的图示，用于描述电路的工作原理。

其中，电路元件通过连接线连接起来，形成了一个完整的电路。

工作原理如下：
1. 进行电流的流动：电源的正极通过连接线连接到电路中的元件，例如电阻、电感、电容等，电路中的元件通过连接线连接到电源的负极。

当电源处于工作状态时，电流沿着连接线从正极流向负极，形成了闭合回路。

2. 元件的作用：电阻作为电路中的阻碍元件，会阻碍电流的通过，起到限制电流大小的作用。

电容和电感则是储存和释放电能的元件，电容可以储存电荷并对电流进行平滑处理，而电感可以储存磁场能量，并对电流进行滤波和调整频率的作用。

3. 元件之间的连接：电路中的连接线将各个元件连接在一起，形成了一个闭合回路，确保电流能够流动。

通过连接线的不同连接方式，可以实现电路中元件之间不同的关系，例如串联、并联等。

4. 电源的供电和控制：电源是提供电流的能源，可以是直流电源或交流电源。

它可以根据电路的需要提供恒定的电流或电压。

电路中的控制开关、触发器等元件可以对电路进行控制，如打开、关闭电路或改变电路中的参数。

通过电气原理图，我们可以清晰地看到电路中各个元件之间的关系和作用，帮助我们理解电路的工作原理。

eda原理图
EDA（Electronic Design Automation，电子设计自动化）是现
代电子工程中一项重要的技术。

它利用计算机和特定的软件工具，来辅助设计、验证和生产电子设备、电路板和芯片。

EDA技术主要包含了原理图设计、电路仿真、布局布线和物
理验证等几个方面。

在原理图设计阶段，设计师使用EDA软
件工具绘制电路图，将电子元器件之间的连接和功能关系表示出来。

这些原理图就像电子设计的蓝图，可作为后续仿真和布局布线的基础。

电路仿真是EDA技术中的一个关键步骤。

通过仿真，设计师
可以验证电路的功能和性能，并进行性能优化。

在仿真过程中，EDA软件会根据电路的结构和参数计算电流、电压和功率等
关键指标，并通过波形图和数据分析工具来显示和分析仿真结果。

布局布线是EDA技术中的另一个重要环节。

在布局布线过程中，设计师将电路元器件放置在电路板上，并进行线路的布线连接。

这个过程需要考虑电路元器件的物理约束，如大小、形状和排列方式等。

通过EDA软件的辅助，设计师可以自动完
成电路布局和布线的任务。

最后，物理验证是EDA技术中的最后一步。

设计师需要使用EDA软件来验证所设计的电子产品的物理特性和工作状态。

这个过程可以通过电子测试仪器和EDA软件工具来完成，以
确保电子产品符合设计要求。

综上所述，EDA技术在电子设计中具有重要的作用。

它能够提高设计效率，缩短开发周期，并保证设计的可靠性和性能。

因此，EDA技术在电子工程领域得到了广泛的应用和推广。

一、实验原理：避障传感器基本原理，和循迹传感器工作原理基本相同，利用物体的反射性质。

在一定范围内，如果没有障碍物，发射出去的红外线，因为传播距离越远而逐渐减弱，最后消失。

如果有障碍物，红外线遇到障碍物，被反射到达传感器接收头。

传感器检测到这一信号，就可以确认正前方有障碍物，并送给单片机，单片机进行一系列的处理分析，协调小车两轮工作，完成一个漂亮的躲避障碍物动作，传感器原理图如图6。

图6 红外避障传感器原理图二、实验接线：实验时只需把信号输出端（signal）与单片机的P1^0口相连。

VCC端接5V电源，GND接电源负极或单片机上的逻辑地。

注意：如果对红外避障传感器的使能感兴趣，可以把传感器的TC端接单片机的I/O口，通过控制TC实现是否开启红外避障传感器，当TC 为高电平时传感器工作，为低电平时，传感器关闭，参照图7。

三、实验任务：1、把红外避障传感器固定在小车的正前方，接好线。

注意：红外传感器的避障距离也是可调，调节滑动变阻器可以调节避障距离。

2、编制程序，实现小车检测到前方有障碍物时，向左转弯，再检测，没有障碍物，继续前进，有障碍物，继续左转弯。

图7 避障传感器与单片机连接图四、红外避障传感器电路分析：电路中HEF4011BT是一个4通道2输入与非门。

455是晶振，它产生38k的方波，HEF4024BT是7位二进制计数器，38k的方波作为计数器HEF4024BT的时钟输入。

HEF4024BT的O2与O3接与非门加一个非门去控制HEF4024BT的复位端。

也就是说当HEF4024BT计数到第四位与第三位同时为1时，HEF4024BT就会被清零。

同时当HEF4024BT的O3为1时，HEF4011BT的O4为低电平，触发红外发光二极管发送信号。

当HEF4024BT的O3为0时，HEF4011BT的O4为高电平，关闭发光二极管，这段时间为4个方波周期。

也就实现了38k载波调制的红外。

接收头是红外线一体化接收头是集红外接收、放大、滤波和比较器输出的模块。