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Related Manuals for Tews Technologies TAMC261
Summary of Contents for Tews Technologies TAMC261
- Page 1 The Embedded I/O Company TAMC261 PMC-Carrier for MTCA.4 Rear-I/O Version 1.0 User Manual Issue 1.0.0 October 2013 TEWS TECHNOLOGIES GmbH Am Bahnhof 7 25469 Halstenbek, Germany Phone: +49 (0) 4101 4058 0 Fax: +49 (0) 4101 4058 19 e-mail: info@tews.com...
- Page 2 Mid-Size PMC-Carrier for MTCA.4 Rear-I/O, with in this document at any time without notice. additional M-LVDS transceivers TEWS TECHNOLOGIES GmbH is not liable for any TAMC261-21R damage arising out of the application or use of the Full-Size PMC-Carrier for MTCA.4 Rear-I/O, with device described herein.
- Page 3 Issue Description Date 1.0.0 Initial Issue October 2013 TAMC261 User Manual Issue 1.0.0 Page 3 of 36...
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Page 4: Table Of Contents
5.5.2 M-LVDS Transceiver.......................18 INSTALLATION ......................20 Installation of a PMC Module .......................20 6.1.1 Voltage Limits on PMC Modules.....................21 6.1.2 Component Height Violation on TAMC261-x0R ..............21 6.1.3 Using PMCs with Mid-Size faceplates ..................22 AMC Module Installation ......................22 6.2.1 Insertion ..........................23 6.2.2 Extraction ..........................23... - Page 5 REQUIREMENTS FOR COMPATIBLE μRTM DESIGNS........... 30 Management Functions........................30 9.1.1 General Notes.........................30 9.1.2 Present Detection ........................31 9.1.3 Power Good Detection......................31 9.1.4 JTAG Signals ..........................31 9.1.5 I2C Management Bus ......................31 9.1.6 μRTM FRU Information Requirements ...................34 TAMC261 User Manual Issue 1.0.0 Page 5 of 36...
- Page 6 FIGURE 6-4 : USING PMCS WITH MID-SIZE FACEPLATES ...............22 FIGURE 6-5 : HOT-SWAP STATES ........................22 FIGURE 7-1 : FRONT PANEL LED VIEW ......................24 FIGURE 8-1 : ON-BOARD CONNECTOR OVERVIEW .................25 FIGURE 9-1: EXAMPLE I2C I/O EXTENDER INTERFACE ON μRTM............34 TAMC261 User Manual Issue 1.0.0 Page 6 of 36...
- Page 7 TABLE 9-3: SUPPORTED μRTM I2C DEVICES ....................31 TABLE 9-4: μRTM I2C I/O EXTENDER PORT ASSIGNMENT ..............33 TABLE 9-5: μRTM FRU COMMON HEADER....................35 TABLE 9-6: ZONE 3 INTERFACE COMPATIBILITY RECORD ..............36 TABLE 9-7: PRE-CONFIGURED μRTM TEMPERATURE SENSOR ............36 TAMC261 User Manual Issue 1.0.0 Page 7 of 36...
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Page 8: Product Description
TCLKA-D. All control and data lines of the M-LVDS transceivers are routed to the zone 3 interface, enabling a mounted PMC to access the AMC port signals via the μRTM. The TAMC261 is a versatile solution to upgrade well known legacy I/O solutions to a high performance form factor. -
Page 9: Technical Specification
If FIT rates are not available, MIL-HDBK-217F and MIL-HDBK-217F Notice 2 formulas are used for FIT rate calculation. Humidity 5 – 95 % non-condensing Weight 209 g Table 2-1 : Technical Specification TAMC261 User Manual Issue 1.0.0 Page 9 of 36... -
Page 10: Handling And Operating Instructions
Mid-Size module with its component height violation can be used in the system. Otherwise, damage to the TAMC261 or the slot it is used in may occur! Refer to the chapter “Component Height Violation on TAMC261-x0R”... -
Page 11: Ipmi Support
Table 4-1 : Temperature and Voltage Sensors The following on-board power supplies are monitored by the MMC via a digital power good signal: 3.3V, 5V. TAMC261 User Manual Issue 1.0.0 Page 11 of 36... -
Page 12: Sensor Locations
4.1.1 Sensor Locations The following figure shows the location of the TAMC261 physical sensors. Hot-Swap Sensor Temperature Sensor 1 Voltage Sensors Temperature Sensor 2 Figure 4-1 : Sensor Locations TAMC261 User Manual Issue 1.0.0 Page 12 of 36... -
Page 13: Fru Information
TAMC261 Board serial number determined at manufacturing (see board label) TAMC261-xx Board part number -xx = -10R / -11R / -20R / -21R Table 4-3 : Board and Product Info Area TAMC261 User Manual Issue 1.0.0 Page 13 of 36... -
Page 14: Product Info Area
Gen 1 PCI Express, Single Channel Link Express non-SSC Primary Port PCI Express AMC.1 PCI Gen 1 PCI Express, Single Channel Link Express non-SSC Primary Port Table 4-6 : AMC Point-to-Point Connectivity TAMC261 User Manual Issue 1.0.0 Page 14 of 36... -
Page 15: Modifying Fru Records
Table 4-8 : Zone 3 Interface Compatibility Record If any Zone 3 Interface Compatibility record in the μRTM’s FRU information matches the Zone 3 Interface Compatibility record shown, the TAMC261 considers the μRTM to be compatible. Otherwise the TAMC261 considers the μRTM to be incompatible. -
Page 16: Functional Description
PMC modules are specified for 3.3V only, 5V only, or universal (3.3V or 5V) PCI signal voltage operation. The voltage key pin defines the PCI signal voltage level for the TAMC261 PCI bus and prevents PMCs with a wrong signaling voltage from being plugged onto the carrier. -
Page 17: Bridge Configuration Dip-Switch
Limit PCI clock to 33 MHz Table 5-3 : Bridge Configuration DIP-Switch As factory default, TAMC261 is configured to 133 MHz PCI-X, 64 bit / 66 MHz PCI (off, on, off, off). TAMC261 User Manual Issue 1.0.0 Page 17 of 36... -
Page 18: Amc Interface
Table 5-4: AMC Interface Overview 5.5.2 M-LVDS Transceiver The TAMC261-2x provides M-LVDS transceivers, connected to the AMC point-to-point connections on port 12-15, the MTCA.4 trigger, clock and interlock connections on port 17-20 and to the TCLKA-D lines. The transceiver control lines are connected to the zone 3 interface. -
Page 19: Table 5-5: M-Lvds Transceiver Control Signals
For the case that a simple μRTM without management is used, the M-LVDS transceivers can be enabled permanently with a jumper (J3): Jumper Description Jumper 1-2 Installed M-LVDS transceivers enabled by ZONE3_EN (factory default) Jumper 2-3 Installed M-LVDS transceivers permanently enabled Table 5-6: M-LVDS Jumper (J3) TAMC261 User Manual Issue 1.0.0 Page 19 of 36... -
Page 20: Installation
If the PMC has a front panel, remove the cover from the PMC front panel cut-out of the TAMC261. Install the PMC at an angle so that the PMC front panel penetrates the PMC front panel cut-out. Then rotate down to mate with the PMC connectors on the TAMC261. -
Page 21: Voltage Limits On Pmc Modules
Figure 6-2 : Component Height Violation according to AMC.0 When using the TAMC261-x0R on an AdvancedTCA carrier, it is within the responsibility of the user to carefully check if the Mid-Size module with its component height violation can be used. Otherwise damage of the TAMC261 or the carrier may occur! MTCA.0, although the adjacent board is also an AMC, maintains the steps in the Mid-Size AMC component... -
Page 22: Using Pmcs With Mid-Size Faceplates
It is within the responsibility of the user to carefully check if a specific PMC can be used on a Mid-Size TAMC261. If you are not sure that the available spacing to conductive parts of the PMC is sufficient, it is strongly recommended to use a TAMC261 with Full-Size front panel. -
Page 23: Insertion
3. Wait until the green LED goes off and the blue Hot-Swap LED shows activity 4. Wait until the blue Hot-Swap LED is permanently on 5. Unfasten the μRTM from the MTCA.4 system 6. Pull the μRTM from the MTCA.4 system (handle still pulled) TAMC261 User Manual Issue 1.0.0 Page 23 of 36... -
Page 24: Indicators
The AMC module provides a couple of board-status LEDs as shown below. Indicator Color Description Power Good Carrier Card PGOOD Green Indicates that the PMC 5V, 3.3V and core voltages supplies are within tolerance Table 7-2: Board-Status LEDs TAMC261 User Manual Issue 1.0.0 Page 24 of 36... -
Page 25: O Connectors
8 I/O Connectors This chapter provides information about user accessible on-board connectors Overview PGOOD 1 3 4 Figure 8-1 : On-Board Connector Overview TAMC261 User Manual Issue 1.0.0 Page 25 of 36... -
Page 26: Board Headers
Test Data Output (TAP Controller: TDI) Reference Voltage Test Mode Select Input nSRST MMC RESET# n.c. Connected to MP nTRST Connected to PENABLE# Test Data Input (TAP Controller: TDO) Ground Table 8-1: MMC JTAG Header TAMC261 User Manual Issue 1.0.0 Page 26 of 36... -
Page 27: Board Connectors
Connected to zone 3 interface with M-LVDS transceivers 153-145 Port 19 Connected to zone 3 interface with M-LVDS transceivers 159-145 Port 20 Connected to zone 3 interface with M-LVDS transceivers Table 8-2: AMC Connector Pin Assignment TAMC261 User Manual Issue 1.0.0 Page 27 of 36... -
Page 28: Pmc Connector
= clearance Table 8-3: Zone 3 Mechanical Keying 8.4.2 Zone 3 Connector The TAMC261 provides two 30-pair ADF connectors (J30 and J31) at the Zone 3 Interface. Pin-Count 30 contact pairs (60 signal contacts) + 30 GND pins Connector Type Advanced Differential Fabric (ADF) connector Source &... -
Page 29: Zone 3 Quiescence Actions
Table 8-5: Zone 3 J31 Connector Pin Assignment 8.4.3 Zone 3 Quiescence Actions The TAMC261 does not support any quiescence actions (except for bypassing the JTAG chain), because all I/O lines are directly controlled by the PMC module mounted on the TAMC261. -
Page 30: Requirements For Compatible Μrtm Designs
9 Requirements for Compatible μRTM Designs This chapter is intended for designers of TAMC261 compatible RTM’s. Management Functions 9.1.1 General Notes The TAMC261 provides the following μRTM related management signals at the Zone 3 (μRTM) interface: Signal Description Ground RTM_PS# μRTM present status (input for AMC) -
Page 31: Present Detection
The JTAG signals at the Zone 3 Interface are not powered by the management power supply, but by the AMC 3.3V payload power supply. The JTAG signals (except TDO) will be driven by the TAMC261 when all of the following is true: The μRTM is present The AMC has enabled payload power to the μRTM (μRTM is compatible) - Page 32 The I2C I/O device must be powered by the RTM_MP power supply. A PCA9534 or compatible device with I2C address 20h (0100000b) must be used. The TAMC261 supports the following pin/signal assignment for the μRTM I2C I/O Extender device: I/O Port...
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Page 33: Table 9-4: Μrtm I2C I/O Extender Port Assignment
AMC/MMC, e.g. a jumper that provides EEPROM write protection when open and supports EEPROM writes when closed. This would make it more convenient to program an empty μRTM EEPROM (thus an incompatible μRTM) per IPMI commands. TAMC261 User Manual Issue 1.0.0 Page 33 of 36... -
Page 34: Μrtm Fru Information Requirements
The EEPROM on the μRTM I2C bus must contain FRU information data for the μRTM. The μRTM FRU information must include: Common Header Zone 3 Interface Compatibility Record (Multi-Record Area) The μRTM FRU information may optionally include: Board Info Area Product Info Area TAMC261 User Manual Issue 1.0.0 Page 34 of 36... -
Page 35: Table 9-5: Μrtm Fru Common Header
Holds the zero checksum of the record Header Checksum Holds the zero checksum of the header Manufacturer ID For MTCA.4 the value is 12634 = 0x00315A, LSB first PICMG Record ID Value 30h Record Format Version TAMC261 User Manual Issue 1.0.0 Page 35 of 36... -
Page 36: Table 9-6: Zone 3 Interface Compatibility Record
Lower Critical Threshold -40°C Lower Non-Critical Threshold -30°C Table 9-7: Pre-configured μRTM Temperature Sensor At this time, the TAMC261 MMC firmware does not support any SDR data stored in the μRTM I2C EEPROM. TAMC261 User Manual Issue 1.0.0 Page 36 of 36...