- Form Factor: 6U VME module
- MIL-STD-1553 Controllers: Two dual redundant MIL-STD-1553 controllers (A/B channels)
- Multiprotocol Support: Supports MIL-STD-1553A/B, STANAG-3838, and MIL-STD-1760
- Memory: 2MB RAM per channel
- Programmable Modes: Bus Controller, Remote Terminal with concurrent Bus Monitor
- IRIG-106 Chapter 10 Monitor: Supported
- RT Address Emulation: Emulates up to 31 RT addresses simultaneously
- Filtering: Filter based on RT address, T/R bit, sub-address
- Coupling: Transformer coupled
- IRIG-B Input: IRIG-B digital input available
VME-1553-2-DDC
Two Channel Dual Redundant 1553 Controller, BC,RT,BM,MRT
- Form Factor: 6U VME module
- MIL-STD-1553 Controllers: Two dual redundant MIL-STD-1553 controllers (A/B channels)
- Multiprotocol Support: Supports MIL-STD-1553A/B, STANAG-3838, and MIL-STD-1760
- Memory: 2MB RAM per channel
- Programmable Modes: Bus Controller, Remote Terminal with concurrent Bus Monitor
- IRIG-106 Chapter 10 Monitor: Supported
- RT Address Emulation: Emulates up to 31 RT addresses simultaneously
- Filtering: Filter based on RT address, T/R bit, sub-address
- Coupling: Transformer coupled
- IRIG-B Input: IRIG-B digital input available
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VME-1553-2-DDC
Two Channel Dual Redundant 1553 Controller, BC,RT,BM,MRT
The VME-1553-2-DDC module utilizes a DDC Total-ACE communication device to function as a 1553 bus controller or as a remote terminal with concurrent bus monitor capabilities. It features a dual redundant channel with built-in transceivers and transformers. The controller can emulate up to 31 RT addresses simultaneously. In RT mode, the VME-1553-2-DDC can filter based on RT address, T/R, and sub-address. The board is designed to operate in an extended temperature range, enhancing its reliability in various environmental conditions.
VME Interface
- A32/A24/A16 address modes with D16/D08 data modes
- Read, modify, and write cycles supported
- Interrupts: software-programmable from 1 to 7
- Module size: 6U, 233 x 160mm
I/O Connections
- Front panel triax connectors
- Rear I/O connection
- IRIG-B digital input
Software Support
- C library DLLs
- Linux drivers
- Windows drivers
- VxWorks drivers
Mechanical & Environmental Specifications
- Size: Single wide VME, 6.299” x 9.387”
- Power consumption: 1.5 watts
- Front panel I/O
- Vibration resistance: 0.5G RMS (20-2000 Hz)
- Shock resistance: 20 G (11 ms, ½ sine)
- Weight: To be determined
- MTBF: >250,000 hours
Part Number: VME-1553-2-DDC
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- Two-channel dual redundant 1553 controller
Part Number: EngKit-1553-2
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- Engineering kit for the VME-1553-2-DDC
- Form Factor: 6U VME module
- MIL-STD-1553 Controllers: Two dual redundant MIL-STD-1553 controllers (A/B channels)
- Multiprotocol Support: Supports MIL-STD-1553A/B, STANAG-3838, and MIL-STD-1760
- Memory: 2MB RAM per channel
- Programmable Modes: Bus Controller, Remote Terminal with concurrent Bus Monitor
- IRIG-106 Chapter 10 Monitor: Supported
- RT Address Emulation: Emulates up to 31 RT addresses simultaneously
- Filtering: Filter based on RT address, T/R bit, sub-address
- Coupling: Transformer coupled
- IRIG-B Input: IRIG-B digital input available
| Mechanical Interface | Switched Mezzanine Card (XMC) Interface confirming to ANSI/VITA 42.0-2008 (Auxiliary Standard) Standard single-width (149mm x 74mm) | |||||||||
| Electrical Interface | PCI Express x4 Link (Base Specification 2.1) compliant interface conforming to ANSI/VITA 42.3-2006 (PCI Express Protocol Layer Standard) | |||||||||
| PCI Express Switch | PI7C9X2G312GP (Pericom) | |||||||||
| PCI Express to PCI Bridge | XIO2001 (Texas Instruments) | |||||||||
| User configurable FPGA | TXMC639-10R: XC7K160T-2FBG676I (AMD) TXMC639-11R: XC7K325T-2FBG676I (AMD) | |||||||||
| SPI-Flash | MT25QL128 (Micron) 128 Mbit (contains TXMC639 FPGA BRD) or compatible; +3.3 V supply voltage | |||||||||
| DDR3 RAM | 2x MT41K256M16TW-107 (Micron) 256Meg x 32 bit | |||||||||
| Board Configuration Controller | LCMXO2-7000HC (Lattice) | |||||||||
| ADC | LTC2320 -16 (Analog Devices) | |||||||||
| DAC | AD5547BRUZ (Analog Devices) | |||||||||
| A/D Channels | TXMC639-10R: 8 Differential 16bit A/D Channels TXMC639-11R: 16 Differential 16bit A/D Channels Input Configuration per BCC Device: Input Voltage Ranges: Differental : ±20.57 V, ±10.28 V or ±5.14 V (Single-Ended: ±10.28 V, ±5.14 V or ±2.57 V) All analog inputs are connected via an impedance converter and a second operation amplifier for level adjustment and filtering to the differential ADC inputs. The -3 dB limit of this input stage is at approx. 8MHz | |||||||||
| D/A Channels | TXMC639-10R: 4 Single-Ended 16 Bit D/A Channels TXMC639-11R: 8 Single-Ended 16 Bit D/A Channels Output range configurable per D/A channel. Maximum single-ended Output Voltage – Vout: ±10 V Maximum Output Drive Current for each Output: 10 mA Maximum Capacitive Load for each Output: 1000 pF Typical Settling Time for a 10 mA / 1000 pF: < 1 µs | |||||||||
| Digital Front I/O Channels | 32 digital I/O Lines
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| Digital Rear I/O Channels | 64 direct FPGA I/O lines to P14 Rear I/O connector
4 MGT line to P16 Rear I/O connector
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| Front I/O | Front I/O Samtec – ERF8_050_01_L_D_RA_L_TR | |||||||||
| P14 Rear I/O | 64 pin Mezzanine Connector (Molex 71436-2864 or compatible) | |||||||||
| P16 Rear I/O | 114 pin Mezzanine Connector (Samtec – ASP-105885-01) | |||||||||
| Power Requirements 1) | Depends on FPGA design With TXMC639 Board Reference Design / without external load
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| Temperature Range | Operating: – 40 °C to + 85 °C Storage: – 55 °C to + 125 °C | |||||||||
| MTBF 1) | 157 000 h to 161 000 h | |||||||||
| Humidity | 5% – 95% non-condensing | |||||||||
| Weight | 140 g |
1) depends on variant, for further details see User Manual
TXMC639-10R
| 8x Analog In, 4x Analog Out, XC7K160T-2FBG676 Kintex™ 7 FPGA AMD Kintex™ 7 FPGA (XC7K160T-2FBG676), 1GB DDR3, 8x Analog In, 4x Analog Out, 32x digital Front I/O, 64x direct FPGA Rear I/O Lines and 4x MGTs Rear I/O |
TXMC639-11R
| 16x Analog In, 8x Analog Out, XC7K325T-2FBG676 Kintex™ 7 FPGA AMD Kintex™ 7 FPGA (XC7K325T-2FBG676), 1GB DDR3, 16x Analog In, 8x Analog Out, 32x digital Front I/O, 64x direct FPGA Rear I/O Lines and 4x MGTs Rear I/O |
SOFTWARE
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