Changes between Version 12 and Version 13 of Hardware/jCM/bCM1/aHardware


Ignore:
Timestamp:
Jan 11, 2013, 1:12:15 AM (12 years ago)
Author:
Ilya Chigirev
Comment:

Legend:

Unmodified
Added
Removed
Modified
  • Hardware/jCM/bCM1/aHardware

    v12 v13  
    1 === Hardware Description ===
     1==== Hardware Description ====
    22
    33Chassis Manager (CM) is organized around RCM3700 module and comes in two incarnations:
     
    1717Table 2 CM I2C Components
    1818
    19 ==== Node module ====
    20 
    21 ==== PCI MOdule ====
     19===== PCI Module =====
    2220
    2321The CM has two components:  a CM PCI card that connects directly to the host, and a NodeIDBox that permanently mounts on a fixture at each grid position.  The PCI CM block diagram is shown in Figure 5. 
     
    2725The physical form-factor for the Chassis Manager is a 2U PCI card measuring approximately 4.75 x 2.5 in.  The Node ID box is on a board measuring approximately 2.25 x 1.75 in.  Appropriate sockets permit the RCM3700 module to plug directly into the PCI card or optionally through a 10 pin ribbon cable for remote mounting.
    2826
    29 ==== Major Hardware Components ====
     27===== Major Hardware Components =====
    3028
    31 ===== RCM3700 =====
     29''' RCM3700 '''
    3230
    3331[[Image(RCM3700.jpg,align=right,title="Rabbit Semiconductor RCM 3700",200)]]
    3432
    35 The [http://www.rabbitsemiconductor.com/documentation/docs/manuals/RCM3700/index.htm RCM3700 Rabbit Core] is the microprocessor based core module designed for Ethernet/Internet applications with the following features:
     33The [http://www.rabbitsemiconductor.com/documentation/docs/manuals/RCM3700/index.htm RCM3700 Rabbit Core] is the microprocessor based core module designed for !Ethernet/Internet applications with the following features:
    3634
    3735 * Small Footprint: 2.95” x 1.2”; 100ma @ 5v
     
    4846Note:  The Dynamic C TCP/IP library functions are slightly different from Unix syntax, and are not directly portable to non-Rabbit platforms.
    4947
    50 ===== DS1780 =====
     48''' DS1780 '''
    5149
    5250[[Image(DS1780.jpg,align=right,title="DS1780 Functional Block Diagram",200)]] Voltage and temperature monitoring is achieved using the I2C-based Dallas Semiconductor DS-1780.  This device is a 24-pin direct-to-digital chassis system monitor.  It is capable of monitoring ambient temperature, six power supply voltages, and the speed of two fans.  Fan speed can also be controlled from this device using an internal 8-bit ADC. 
     
    5452[[BR]][[BR]][[BR]][[BR]][[BR]][[BR]]
    5553
    56 ===== TPIC2810 =====
     54''' TPIC2810 '''
    5755
    5856[[Image(TPIC2810.jpg, align=right, title="TPIC2810 Block Diagram",200)]]
     
    6058[[BR]][[BR]][[BR]][[BR]][[BR]][[BR]]
    6159
    62 ===== P82B96 =====
     60''' P82B96 '''
    6361
    6462[[Image(P82B96.jpg,align=right,title="P82B96 Block Diagram",200)]]
     
    6765[[BR]][[BR]][[BR]][[BR]][[BR]][[BR]]
    6866 
    69 ===== PCA9554 =====
     67''' PCA9554 '''
    7068
    7169[[Image(PCA9554.jpg,align=right,title="PCA9554 Block Diagram",200)]]
     
    7472[[BR]][[BR]]
    7573
    76 ===== PCA8581 =====
     74''' PCA8581 '''
    7775
    7876[[Image(PCA8581.jpg,align=right,title="PCA8581 Block Diagram",200)]]
     
    8179[[BR]]
    8280
    83 ===== PCF8570 =====
     81''' PCF8570 '''
    8482
    8583The 256 x 8 PCF8570 I2C RAM device is included in the CM design for future use, and is not used on the initial CM boards.  Its design consideration addresses inter-processor communication between the CM and the Host node.