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M.2-CAN-2
M.2-CAN-2 - Image 2

M.2-CAN-2

2 Channels CAN Controller – USB 2.0
Two Channels Multipurpose communications applications- Protocol Converter

CAN Bus

  • High Speed CAN interface according to ISO 11898-2
  • Time-stamped CAN messages
  • Supports 11-bit (CAN 2.0A) and 29-bit (CAN 2.0B active) identifiers
  • Bit rates: 10 to 1000 kbps
  • Reliable error handling
  • Low Power consumption
  • NEMA Compliance
  • Isolated CAN Channels

 

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M.2-CAN-2
M.2-CAN-2 - Image 2

M.2-CAN-2

2 Channels CAN Controller – USB 2.0
Two Channels Multipurpose communications applications- Protocol Converter

CAN Bus

  • High Speed CAN interface according to ISO 11898-2
  • Time-stamped CAN messages
  • Supports 11-bit (CAN 2.0A) and 29-bit (CAN 2.0B active) identifiers
  • Bit rates: 10 to 1000 kbps
  • Reliable error handling
  • Low Power consumption
  • NEMA Compliance
  • Isolated CAN Channels

 

The M.2-CAN-2 board is engineered around the NXP LPC2387 microcontroller. This highly integrated 32-bit microcontroller based on the ARM7TDMI-S processor, has a very low power consumption and features 512 kB of on-chip high-speed flash memory. It incorporates several communications ports, specifically a USB full-speed Device/Host/OTG Controller with 4 kB of endpoint RAM, and two Controller Area Network (CAN) channels.

The device controller enables 12 Mbit/s data exchange with a USB host controller. It consists of a register interface, serial interface engine, endpoint buffer memory, and a DMA controller. The serial interface engine decodes the USB data stream and writes data to the appropriate endpoint buffer. The status of a completed USB transfer or error condition is indicated via status registers. An interrupt is also generated if enabled. When enabled, the DMA controller transfers data between the endpoint buffer and the USB RAM.

The Controller Area Network (CAN) is a serial communications protocol that efficiently supports distributed real-time control with a very high level of security. Its domain of application ranges from high-speed networks to low-cost multiplex wiring. An interrupt is also generated if enabled. When enabled, the DMA controller transfers data between the endpoint buffer and the USB RAM. The Controller Area Network (CAN) is a serial communications protocol that efficiently supports distributed real-time control with a very high level of security. Its domain of application ranges from high-speed networks to low-cost multiplex wiring.

LPC2387 Device Specifications

  • Fully compliant with USB 2.0 Specification (full speed).
  • Supports 32 physical (16 logical) endpoints with a 4 kB endpoint buffer RAM.
  • Supports Control, Bulk, Interrupt and Isochronous endpoints.
  • Scalable realization of endpoints at run time.
  • Endpoint Maximum packet size selection (up to USB maximum specification) by software at run time.
  • Supports SoftConnect and GoodLink features.
  • While USB is in the Suspend mode, the LPC2387 can enter one of the reduced power modes and wake up on USB activity.
  • Supports DMA transfers with the DMA RAM of 16 kB on all non-control endpoints.
  • Allows dynamic switching between CPU-controlled and DMA modes.
  • Double buffer implementation for Bulk and Isochronous endpoints.

 

  • Two CAN controllers and buses.
  • Data rates to 1 Mbit/s on each bus.
  • 32-bit register and RAM access.
  • Compatible with CAN specification 2.0B, ISO 11898-1.
  • Global Acceptance Filter recognizes 11-bit and 29-bit receive identifiers for all CAN buses.
  • Acceptance Filter can provide FullCAN-style automatic reception for selected Standard Identifiers.
  • FullCAN messages can generate interrupts.

 

Mechanical: Environmental

  • Size – M.2 Module 30 mm x 42 mm
  • Power – T.B.D.
  • Front panel I/O
  • Vibration – 0.5G, 20-2000 Hz rand
  • Shock – 20G, 11 msec, ½ sine
  • Weight – tbd
  • MTBF – >250,000 hours

 

Operating Environment

  • Operating temperature
    • Commercial: 0 to +70 ºC
    • Optional: -40 ºC to +85 ºC
  • Non-operating: -60 ºC to +120 ºC
  • Humidity – 5 to 90% (non-cond)
  • Altitude – 0 to 10,000 feet

 

Ordering Information

  • Part number: M.2 –CAN-2: CAN Bus and USB interface on M.2 22×60
  • Part number: M.2 –CAN-2I: Same as above with -40 to +85 C M.2 22×60
  • Part number: M.2 –CAN-2ICC: Same -40 to +85 C Conformal Coated

 

Optional Accessories

  • Part number: CBL-Mini-CAN-12 CAN Cable, 12 Inch Micro to DB9

 

Data Sheet – Link Here

Click here
CAN Bus
  • High Speed CAN interface according to ISO 11898-2
  • Time-stamped CAN messages
  • Supports 11-bit (CAN 2.0A) and 29-bit (CAN 2.0B active) identifiers
  • Bit rates: 10 to 1000 kbps
  • Reliable error handling
  • Low Power consumption
  • NEMA Compliance
  • Isolated CAN Channels
 

 

Mechanical Interface

Switched Mezzanine Card (XMC) Interface confirming to ANSI/VITA 42.0-2008 (Auxiliary Standard)

Standard single-width (149mm x 74mm)

Electrical InterfacePCI Express x4 Link (Base Specification 2.1) compliant interface conforming to ANSI/VITA 42.3-2006 (PCI Express Protocol Layer Standard)
PCI Express SwitchPI7C9X2G312GP (Pericom)
PCI Express to PCI BridgeXIO2001 (Texas Instruments)
User configurable FPGA

TXMC639-10R: XC7K160T-2FBG676I (AMD)

TXMC639-11R: XC7K325T-2FBG676I (AMD)

SPI-FlashMT25QL128 (Micron) 128 Mbit (contains TXMC639 FPGA BRD) or compatible; +3.3 V supply voltage
DDR3 RAM2x MT41K256M16TW-107 (Micron) 256Meg x 32 bit
Board Configuration ControllerLCMXO2-7000HC (Lattice)
ADCLTC2320 -16 (Analog Devices)
DACAD5547BRUZ (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.
Simultaneous Conversion for all D/A Channels.

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

  • Default configured as 32 ESD-protected TTL lines
  • 16 I/O lines are configurable as 8 differential RS422 I/O lines with individual Termination enable.
Digital Rear I/O Channels

64 direct FPGA I/O lines to P14 Rear I/O connector

  • Can be used as single-ended or differential I/O
  • FPGA I/O Standard: LVCMOS25, LVTTL25 and LVDS25

4 MGT line to P16 Rear I/O connector

  • Each line consists of one differential RX and TX pair.
  • Transmission speeds of up to 3.125 Gb/s are possible.
Front I/OFront I/O Samtec – ERF8_050_01_L_D_RA_L_TR
P14 Rear I/O64 pin Mezzanine Connector (Molex 71436-2864 or compatible)
P16 Rear I/O114 pin Mezzanine Connector (Samtec – ASP-105885-01)
Power Requirements 1)

Depends on FPGA design

With TXMC639 Board Reference Design / without external load

 typical @ +12 V VPWRtypical @ +5 V VPWR
TXMC639-10R1.1 A2.5 A
TXMC639-11R1.3 A3.3 A
Temperature RangeOperating: – 40 °C to + 85 °C
Storage: – 55 °C to + 125 °C
MTBF 1)157 000 h to 161 000 h
Humidity5% – 95% non-condensing
Weight140 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

Device Driver for Board Family with Reconfigurable FPGA

Data Sheet – Link-Here

User Manual – Link-Here

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