UNS3670A-Z V2 HIEE205011R0002 PFEA111-65 3BSE050091R65 KUC720AE01 3BHB003431R0001 3BHB000652R0001 UFC718AE01 HIEE300936R0001 PPC380AE01 HIEE300885R0001 UBC717BE101 3BHE021887R0101 IS215VCMIH2CA IS200VCMIH2CAA PM864AK01 https://www.weikunfadacai1.com/3BSE018161R1 The MVME5100 integrates the best features of two tracks, enabling OEMs to support different I/O requirements on the same basic platform, simplifying part number maintenance, technical expertise requirements, and backup. The P2 I/O mode MVME5100 supports two configurable jumper P2 I/O modes, PMC mode and IPMC mode. PMC mode is backward compatible with MVME2300/MVME2400. In PMC mode, 64 pins of PMC slot 1 and 46 pins of PMC slot 2 are available for PMC rear I/O on P2. In IPMC mode, when the IPMC761 or IPMC712 PMC card is filled in PMC slot 1, the MVME5100 supports traditional MVME761 or MVME712M I/O modules with limited PMC I/O. In this configuration, PMC slot 2 contains some signals reserved for extended SCSI. IPMC modules IPMC761 and IPMC712 are optional additional PMC modules that are backward compatible with previous generation MCG products such as MVME2600 and MVME2700 Use MVME761 or MVME712M conversion board. The IPMC module provides backend I/O support for ? one single ended ultra wide SCSI port ? one parallel port ? four serial ports (2 or 3 asynchronous and 1 or 2 synchronous/asynchronous, depending on the module). Using this PMC card configuration, the memory interlayer, one PMC slot, and PMC span are still available, providing support for OEM product customization. The conversion module MVME761MVME761 provides industry standard connector access to IEEE 1284 parallel ports, accessing a 10BaseT or 100BaseT port through an RJ-45 connector, accessing asynchronous serial ports configured as EIA-574 DTE through two DB-9 connectors, and accessing synchronous/asynchronous serial ports through two HD-26 connectors. These serial ports are labeled as Serial 3 and Serial 4 on the panel of MVME761, and users can configure them separately as EIA-232, EIA-530, V.35, or X.21 DCE or DTE by installing the Motorola Serial Interface Module (SIM). The P2 adapter provides interface module signals to the MVME761 conversion module. The 3-row P2 adapter can be used for 8 -bit SCSI. The 5-row P2 adapter supports 16 bit SCSI and PMC I/O. The MVME712M MVME712M conversion module provides support for Centronics ? Industry standard connector access for parallel ports, one narrow SCSI port, and four DB-25 connectors, which provide access to asynchronous/synchronous serial port jumpers that can be configured as EIA-232 DCE or DTE. P2 adapter provided Facial signal to MVME712M conversion module. The 3-row P2 adapter can be used for 8-bit SCSI. In order to access other user-defined I/O pins provided through the 5-row VME64 expansion connector, a special P2 adapter board is provided. This adapter panel replaces the traditional 3-row P2 adapter and extends its functionality by providing access to PMC I/O pins. Software support firmware monitoring firmware must complete the traditional functions of testing and initialization, and provide operating system boot support. The MVME5100 firmware monitor exceeds these requirements through the embedded VME leader's validated monitor. It extends functions such as power on testing with extensive diagnostic capabilities, V7768-320000 350-9301007768-320000 A0 SY-60399001R SY-60301001RB SY-60702001RA/SY-61025006RA/SY-61025004RA/SY-61025001RA PP865A 3BSE042236R2 CI854A-EA 3BSE030221R2 PP825 3BSE042240R1 SCYC51020 58052582H PFSK151 3BSE018876R1 GJR5252300R3101 07AC91F TVOC-2-240 1SFA664001R1001 SCYC51020 58052582H SCYC51040 58052680E PP886H 3BSE069297R1 UNS3670A-Z V2 HIEE205011R0002 PFEA111-65 3BSE050091R65 KUC720AE01 3BHB003431R0001 3BHB000652R0001 UFC718AE01 HIEE300936R0001 PPC380AE01 HIEE300885R0001 UBC717BE101 3BHE021887R0101 IS215VCMIH2CA IS200VCMIH2CAA PM864AK01 3BSE018161R1 V7768-320000 350-9301007768-320000 A0 SY-60399001R SY-60301001RB SY-60702001RA/SY-61025006RA/SY-61025004RA/SY-61025001RA PP865A 3BSE042236R2 CI854A-EA 3BSE030221R2 PP825 3BSE042240R1 SCYC51020 58052582H PFSK151 3BSE018876R1 GJR5252300R3101 07AC91F TVOC-2-240 1SFA664001R1001 SCYC51020 58052582H SCYC51040 58052680E PP886H 3BSE069297R1 UNS3670A-Z V2 HIEE205011R0002 PFEA111-65 3BSE050091R65 KUC720AE01 3BHB003431R0001 3BHB000652R0001 UFC718AE01 HIEE300936R0001 PPC380AE01 HIEE300885R0001 UBC717BE101 3BHE021887R0101 IS215VCMIH2CA IS200VCMIH2CAA PM864AK01 3BSE018161R1 V7768-320000 350-9301007768-320000 A0 SY-60399001R SY-60301001RB SY-60702001RA/SY-61025006RA/SY-61025004RA/SY-61025001RA PP865A 3BSE042236R2 CI854A-EA 3BSE030221R2 PP825 3BSE042240R1 SCYC51020 58052582H PFSK151 3BSE018876R1 GJR5252300R3101 07AC91F TVOC-2-240 1SFA664001R1001 SCYC51020 58052582H SCYC51040 58052680E PP886H 3BSE069297R1 UNS3670A-Z V2 HIEE205011R0002 PFEA111-65 3BSE050091R65 KUC720AE01 3BHB003431R0001 3BHB000652R0001 UFC718AE01 HIEE300936R0001 as well as powerful evaluation and deb ing tools for simple inspections or advanced development deb ers that require additional support. All of these are included in the MVME5100 firmware; In addition, it also supports booting the operating system and kernel. The operating system and kernel MVME5100 support booting various operating systems, including a complete set of real-time operating systems and cores that can be purchased from the following companies: The MVME5100 series is the flagship product of Motorola's PowerPlus II VME architecture series, which enables supercomputing performance in a single VMEbus slot. Based on the integrated PCI bridge storage controller ASIC designed by Motorola Computer Group, PowerPlus II has a memory read bandwidth of 582MB/s and a burst write bandwidth of 640MB/s, taking memory performance to a new level. In addition, the PowerPlus II architecture supports a full PCI throughput of 264MB/s without running out of processor memory. The extended temperature version of the MVME5100 series provides hardware and software compatible products to enhance existing MVME5100 products. The new version operates in an extended temperature range of -20 ° to 71 ° C, while the existing commercial version has a temperature range of 0 ° to 55 ° C. The temperature range is advantageous for OEMs who need to extend the operating temperature of their equipment. The MVME5100 is designed to meet the needs of original equipment manufacturers serving the defense and aerospace, industrial automation, and medical segments. I/O compatibility historically, Motorola has provided two tracks in its PowerPC architecture VME product portfolio. The first track (including MVME2600/2700) provides typical single board computer I/O functionality, including Ethernet, SCSI, multiple serial ports, a parallel port, and a PMC slot. On board I/O is routed to P2 and provided to users through the Motorola MVME761 or MVME712M conversion board. The second track (including MVME2300/2400) provides limited onboard I/O (both Ethernet and individual serial ports are through the front panel), but offers dual PMC slots for maximum user I/O customization. The MVME5100 integrates the best features of two tracks, enabling OEMs to support different I/O requirements on the same basic platform, simplifying part number maintenance, technical expertise requirements, and spare parts. The P2 I/O mode MVME5100 supports two configurable jumper P2 I/O modes, PMC mode and IPMC mode. PMC mode is backward compatible with MVME2300/MVME2400. In PMC mode, 64 pins of PMC slot 1 and 46 pins of PMC slot 2 are available for PMC rear I/O on P2. In IPMC mode, when the IPMC761 or IPMC712 PMC card is filled in PMC slot 1, the MVME5100 supports traditional MVME761 or MVME712M I/O modules with limited PMC I/O. In this configuration, PMC slot 2 contains some signals reserved for extended SCSI. IPMC modules IPMC761 and IPMC712 are optional additional PMC modules that can be backwards compatible with previous generation Motorola products such as MVME2600 and MVME2700 using MVME761 or MVME712M conversion boards. The IPMC module provides backend I/O support for the following:PPC380AE01 HIEE300885R0001 UBC717BE101 3BHE021887R0101 IS215VCMIH2CA IS200VCMIH2CAA PM864AK01 3BSE018161R1 V7768-320000 350-9301007768-320000 A0 SY-60399001R SY-60301001RB SY-60702001RA/SY-61025006RA/SY-61025004RA/SY-61025001RA PP865A 3BSE042236R2 CI854A-EA 3BSE030221R2 PP825 3BSE042240R1 SCYC51020 58052582H PFSK151 3BSE018876R1 GJR5252300R3101 07AC91F TVOC-2-240 1SFA664001R1001 SCYC51020 58052582H SCYC51040 58052680E PP886H 3BSE069297R1 UNS3670A-Z V2 HIEE205011R0002 PFEA111-65 3BSE050091R65 KUC720AE01 3BHB003431R0001 3BHB000652R0001 UFC718AE01 HIEE300936R0001 PPC380AE01 HIEE300885R0001 UBC717BE101 3BHE021887R0101 IS215VCMIH2CA IS200VCMIH2CAA PM864AK01 3BSE018161R1 V7768-320000 350-9301007768-320000 A0 SY-60399001R SY-60301001RB SY-60702001RA/SY-61025006RA/SY-61025004RA/SY-61025001RA PP865A 3BSE042236R2 CI854A-EA 3BSE030221R2 PP825 3BSE042240R1 SCYC51020 58052582H PFSK151 3BSE018876R1 GJR5252300R3101 07AC91F TVOC-2-240 1SFA664001R1001 SCYC51020 58052582H SCYC51040 58052680E PP886H 3BSE069297R1 UNS3670A-Z V2 HIEE205011R0002 PFEA111-65 3BSE050091R65 KUC720AE01 3BHB003431R0001 3BHB000652R0001 UFC718AE01 HIEE300936R0001 PPC380AE01 HIEE300885R0001 UBC717BE101 3BHE021887R0101 IS215VCMIH2CA IS200VCMIH2CAA PM864AK01 3BSE018161R1 V7768-320000 350-9301007768-320000 A0 SY-60399001R SY-60301001RB SY-60702001RA/SY-61025006RA/SY-61025004RA/SY-61025001RA PP865A 3BSE042236R2 CI854A-EA 3BSE030221R2 PP825 3BSE042240R1 SCYC51020 58052582H PFSK151 3BSE018876R1 GJR5252300R3101 07AC91F TVOC-2-240 1SFA664001R1001 SCYC51020 58052582H SCYC51040 58052680E PP886H 3BSE069297R1 UNS3670A-Z V2 HIEE205011R0002 PFEA111-65 3BSE050091R65 KUC720AE01 3BHB003431R0001 3BHB000652R0001 UFC718AE01 HIEE300936R0001 PPC380AE01 HIEE300885R0001 UBC717BE101 3BHE021887R0101 IS215VCMIH2CA IS200VCMIH2CAA PM864AK01 3BSE018161R1 V7768-320000 350-9301007768-320000 A0 SY-60399001R SY-60301001RB SY-60702001RA/SY-61025006RA/SY-61025004RA/SY-61025001RA PP865A 3BSE042236R2 CI854A-EA 3BSE030221R2 PP825 3BSE042240R1One single ended ultra wide SCSI port ? One parallel port ? Four serial ports (2 or 3 asynchronous and 1 or 2 synchronous/asynchronous, depending on the module). With this PMC card configuration, memory mezzanine, one PMC slot, and PMC span are still available, providing support for OEM product customization The MVME761MVME761 conversion module provides industry standard connector access to IEEE 1284 parallel ports through RJ-45 connectors, one 10BaseT or 100BaseTX port, two DB-9 connectors provide access to asynchronous serial ports configured as EIA-574 DTE, and two HD-26 connectors provide access to synchronous/asynchronous serial ports. These serial ports are labeled as serial 3 and serial 4 on the panel of MVME761, and users can configure them separately as EIA-232, EIA-530, V.35, or X.21 DCE/DTE by installing the Motorola Serial Interface Module (SIM). The P2 adapter provides interface module signals to the MVME761 conversion module. The 3-row P2 adapter can be used for 8-bit SCSI. The 5-row P2 adapter supports 16 bit SCSI and PMC I/O. The MVME712M MVME712M conversion module provides support for Centronics ? Industry standard connector access for parallel ports, one narrow SCSI port, and four DB- 25 connectors, which provide access to asynchronous/synchronous serial port jumpers that can be configured as EIA-232 DCE/DTE. The P2 adapter provides interface signals for the MVME712M conversion module. The 3-row P2 adapter can be used for 8-bit SCSI. In order to access other user-defined I/O pins provided through the 5-row VME64 expansion connector, a special P2 adapter board is provided. This adapter panel replaces the traditional 3-row P2 adapter and extends its functionality by providing access to PMC I/O pins The firmware monitor firmware must complete the traditional functions of testing and initialization, and provide operating system boot support. The MVME5100 firmware monitor exceeds these requirements through the embedded VME leader's validated monitor. It extends functions such as power on testing with extensive diagnostic capabilities, as well as powerful evaluation and deb ing tools for simple inspections or advanced development deb ers that require additional support. All of these are included in the MVME5100 firmware; In addition, it also supports booting the operating system and kernel. The operating system and kernel MVME5100 support the launch of various operating systems: Diagnostic Software Motorola Built In Testing (MBIT) is a ready-made software infrastructure designed to verify the correct operation of Motorola hardware and achieve a combination of system level diagnostics. A comprehensive user manual containing software development guidelines is provided on the CD-ROM of MBIT. MBIT comes in two versions that are compatible with Wind River Systems Tornado 2.1 Board level MBIT is a comprehensive diagnostic software package aimed at verifying the performance of onboard logic devices. All tests can be executed at startup, and selected tests can run continuously in the background of the user application. Contains APIs to provide access to test results and modify and control device testing operations System level MBIT includes all functions and API function calls of the board level version, and supports system wide testing. System level MBIT provides a framework and additional API function calls to support software designed to test custom hardware and/or system components. FBM240 provides 8 voltage monitor discrete input channels and 8 discrete output channels with read back function. Each channel is isolated separately, and the integration of each other Foxboro ? The output channel of the DCS fieldbus module (FBM) provides a demand state read back signal for signal status (ON or OFF), which drives the output solid- state switch. The output demand state reading back signal is compared to the expected output drive state. If there is a mismatch, SCYC51020 58052582H PFSK151 3BSE018876R1 GJR5252300R3101 07AC91F TVOC-2-240 1SFA664001R1001 SCYC51020 58052582H SCYC51040 58052680E PP886H 3BSE069297R1 UNS3670A-Z V2 HIEE205011R0002 PFEA111-65 3BSE050091R65 KUC720AE01 3BHB003431R0001 3BHB000652R0001 UFC718AE01 HIEE300936R0001 PPC380AE01 HIEE300885R0001 UBC717BE101 3BHE021887R0101 IS215VCMIH2CA IS200VCMIH2CAA PM864AK01 3BSE018161R1 V7768-320000 350-9301007768-320000 A0 SY-60399001R SY-60301001RB SY-60702001RA/SY-61025006RA/SY-61025004RA/SY-61025001RA PP865A 3BSE042236R2 CI854A-EA 3BSE030221R2 PP825 3BSE042240R1 SCYC51020 58052582H PFSK151 3BSE018876R1 GJR5252300R3101 07AC91F TVOC-2-240 1SFA664001R1001 SCYC51020 58052582H SCYC51040 58052680E PP886H 3BSE069297R1
