Emerson 752I IPMI Controller:

IPMI Controller: I2C Interfaces

10006024-04 Katana®752i User’s Manual 11-5

In addition to the General Purpose I/O, there are six analog-to-digital (A2D) input pins that

are used for sensing the various power supplies on the board. The following table describes

the Katana®752i implementation of these pins.

Table 11-2: Zircon PM Analog-to-Digital Input Pin Functions

I2C INTERFACES

The Zircon PM controller supports three I2C interfaces. Port 0 is a master/slave interface

which connects to the public IPMB. Port 1 is a master/slave interface which connects to the

I2C bus for the MV64460. Port 2 is a master-only interface for accessing the inlet/outlet

temperature sensors and the two IPMI bootloader and boot code ROM devices.

Note: The Zircon PM device must be held in reset when the I2C Port 2 master-only interface is being used by the

750GL processor to access the serial EEPROM devices.

The MV64460 system controller can master Port 2 while the Zircon PM is in reset. This

allows for access to the IPMI serial EEPROMs, which is useful for programming the Zircon

PM application code. An alternate method for accessing the IPMI serial EEPROMs from the

MV64460 is to use IPMI commands on I2C Port 1.

The MV64460 can master Port 1 to send IPMI requests and receive responses from the Zir-

con PM. All IPMI commands supported on the public IPMB are also supported on the private

IPMB.

According to the IPMB specification, IPMI devices must use I2C Master Write cycles on the

IPMB. All IPMI messages overlay the I2C Master Write data, including the I2C command

byte. Using this format, the first byte of an IPMI message transmitted on the bus is also the

I2C command byte.

Zircon PM

Pin: Signal Name:

Nominal

Voltage: Function:

A2D1 MON_PMC_3_3V 2.0V connects to the 3.3V PTMC power supply

A2D2 MON_CPU_CORE 1.5V connects directly to the 750GL core power

supply

A2D3 1_8V 1.8V connects directly to the 1.8V power supply

A2D4 MON_2_5V 1.95V connects to the 2.5V power supply via a

resistor divider network1

1. The A2D inputs on the Zircon PM have a maximum input voltage rating of 2.5V, which is the A2D pow er

supply voltage. Therefore, any sensed voltage that has a value greater than 2.5V must be divided down.

A2D5 MON_3_3V 2.0 connects to the 3.3V power supply via a

resistor divider network1

A2D6 MON_5V 1.88V connects to the 5V power supply via a

resistor divider network1

Contents

Main Page Regulatory Agency Warnings & Notices FCC RULES AND REGULATIONS PART 15 EMC COMPLIANCE EC Declaration of Conformity Contents 1Overview 2Setup 3 Reset Logic 4Processor 8Local PCI Bus 9 PTMC Interface 10Ethernet Interfaces 11IPMI Controller 12Hot Swap Contents 16Acronyms Page Figures Page Tables Tables Registers Page Section 1 Overview COMPONENTS AND FEATURES Page Page Overview: 1-4 FUNCTIONAL OVERVIEW PTMCEthernet CT Bus ADDITIONAL INFORMATION Product Certification RoHS Compliance Terminology and Notation Technical References Page Device/Interface:Type: Document: Device/Interface:Type: Document: Page Section 2 Setup ELECTROSTATIC DISCHARGE KATANA752I CIRCUIT BOARD Figure 2-1: Katana752i Front Panel 10006024-04 Katana752i Users Manual 2-3 Figure 2-2: Component Map, Top (Rev. 03) LP1 J22 PMC Site #2 J7 U10 Figure 2-3: Component Map, Bottom (Rev. 03) CR17 C761 R872 R884 Figure 2-4: Jumper, Fuse, and Switch Locations, Top 2-6 Figure 2-5: Fuse, and LED Locations, Bottom CR17 C761 R872 R884 Identification Numbers Connectors Fuses LEDs Setup: LED: Color: Signal Name: Comments: KATANA752I SETUP Setup: Power Requirements Environmental Requirements TROUBLESHOOTING Setup: moninit <four-digit board serial number> noburn Technical Support Product Repair Page Section 3 Reset Logic GENERAL OVERVIEW Reset Logic: 3-2 Figure 3-1: Katana752i Reset Diagram 3. Zircon PM powered from IPMI power 2. PLD powered from early power Reset Logic: RESET SOURCES CompactPCI Reset Enable Power Monitor 750GL Processor Reset Reset Logic: Device Bus PLD GL Section 4 Processor PROCESSOR OVERVIEW Features Processor: Figure 4-1: 750GL Block Diagram Physical Memory Map Processor: Figure 4-2: 750GL Memory Map Processor: PROCESSOR RESET PROCESSOR INITIALIZATION Hardware Implementation Dependent 0 Register Hardware Implementation Dependent 1 Register Hardware Implementation Dependent 2 Register Processor: EXCEPTION HANDLING Exception: Vector Address Hex Offset: Notes: Processor: EXCEPTION PROCESSING Page Processor: CACHE MEMORY L1 Cache L2 Cache Page Processor: JTAG/COP HEADERS Pin: Signal: I/O: Description: Page Section 5 System Controller OVERVIEW System Controller: CPU INTERFACE System Controller: SDRAM CONTROLLER DEVICE CONTROLLER INTERFACE System Controller: INTERNAL (IDMA) CONTROLLER TIMER/COUNTERS PCI INTERFACE PCI Configuration Space System Controller: PCI Identification PCI Read/Write PCI Interface Registers System Controller: DOORBELL REGISTERS Outbound Doorbells Inbound Doorbells WATCHDOG TIMER System Controller: ON-CARD MEMORY User Flash SDRAM System Controller: EEPROMs I2C INTERFACE System Controller: 10006024-04 Katana752i Users Manual 5-9 Figure 5-2: I2C Interface Diagram System Controller: GPIO SIGNAL DEFINITIONS Pin: Direction: Description: System Controller: Page Section 6 Device Bus PLD RESET REGISTERS Device Bus PLD: INTERRUPT REGISTERS Device Bus PLD: PRODUCT IDENTIFICATION PCI ENUMERATION Device Bus PLD: REVISION REGISTERS BOARD CONFIGURATION REGISTERS Page Device Bus PLD: OTHER REGISTERS Section 7 Real-Time Clock BLOCK DIAGRAM OPERATION Real-Time Clock: CLOCK OPERATION Real-Time Clock: Page Section 8 Local PCI Bus PCI ENUMERATION PCI ID SELECT AND INTERRUPTS Local PCI Bus: GEOGRAPHICAL ADDRESSING PCI BUS CONTROL SIGNALS Page Local PCI Bus: Section 9 PTMC Interface PTMC INSTALLATION PTMC Interface: PTMC CONNECTOR PINOUTS Pin J11 J12 J13 J14 Page Pin J21 J22 J23 J24 Section 10 Ethernet Interfaces ETHERNET ADDRESS Ethernet Interfaces: ETHERNET PORTS FRONT PANEL ETHERNET CONNECTOR PINOUTS Ethernet Interfaces: OPTIONAL RMII PHY DEVICES Ethernet Interfaces: Magnetics PHY 0x6 RMII Section 11 IPMI Controller SMB/IPMI OVERVIEW Page IPMI Controller: Figure 11-1: IPMB Connections Block Diagram IPMI Microcontroller IPMB (SCL, SDA, PWR) Katana752i IPMI Controller: I/O INTERFACE Zircon PM Pin: Signal Name: Function: IPMI Controller: I2C INTERFACES IPMI MESSAGE PROTOCOL Page IPMI Network Function Codes Hex Code Value(s): Name: Type: Description: IPMI Completion Codes Code: Description: Zircon PM IPMI Commands Get Sensor Reading (Sensor/Event) Page Type: Byte: Data Field: (continued) Master Write-Read I2C (Application) Write Setting (OEM) Read Setting (OEM) Set Heartbeat (OEM) Get Heartbeat (OEM) IPMI FRU Information Item: Description: IPMI Device SDR Repository IPMI Event Messages Page Page Section 12 Hot Swap HOT SWAP LOGIC (HSL) PLD Hot Swap: CPCI FUNCTIONALITY HOT SWAP LED AND EJECTOR SWITCH CONTROL cPCI Hot Swap Page Hot Swap: Non-cPCI Hot Swap Hot Swap: TIMING CONSIDERATIONS Hot Swap: HEALTHY* SIGNAL Section 13 CT Bus Interface PICMG 2.15 CONFIGURATION 2 CT Bus Interface: KATANA752I CT BUS OPTIONS CLOCKING CT Bus Interface: SIGNAL CONTROL CT Bus Interface: CT BUS ROUTING WITHOUT THE T8110 (OPTION 1) CT Bus Interface: Figure 13-2: CT Signal Routing Diagram T8110 Not Installed (option 1) Katana750i CT BUS ROUTING WITH THE T8110 INSTALLED (OPTION 2) T8110: PTMC Site 1: PTMC Site 2: Local CT Bus Operation Figure 13-3: CT Signal Routing Diagram T8110 Installed (option 2) H.110 CT Bus Operation Fig.13-3 and Fig. 13-1. Section 14 Backplane Signals OVERVIEW PINOUTS Page Pin: Row A: Row B: Row C: Row D: Row E: Row F: Pin: Row A: Row B: Row C: Row D: Row E: Row F: Page Section 15 Monitor COMMAND-LINE FEATURES Monitor: BASIC OPERATION Power-Up/Reset Sequence 15-4 Figure 15-2: Power-up/Reset Sequence Flowchart Power-Up Timing POST Diagnostic Results Monitor SDRAM Usage Monitor: MONITOR RECOVERY AND UPDATES Recovering the Monitor Updating the Monitor via TFTP Monitor: Resetting Environment Variables MONITOR COMMAND REFERENCE Command Syntax Command Help Typographic Conventions BOOT COMMANDS bootbus bootcrc bootd bootelf bootm bootp bootv bootvx rarpboot tftpboot Page Monitor: cmp cp find md Monitor: mm nm mw Monitor: FLASH COMMANDS cp erase flinfo Monitor: protect EEPROM / I2C COMMANDS eeprom Monitor: icrc32 iloop imd ipmifirmload Monitor: iprobe ETHERNET CONTROLLER EEPROM COMMANDS initeth4rom filleth4rom Monitor: envinit printenv saveenv setenv Monitor: Page frusetuser gethvr getmonver getpcimemsize getpcimode getphysloc getspr go help isdram loop memmap moninit pci reset run setpcimemsize setpcimode setspr script showmac showpci showtemp version The version command displays the monitors current version number. Definition: ENVIRONMENT VARIABLES Variable: Default Value: Description: Variable: Default Value: Description: (continued) Variable: Default Value: Description: (continued) Variable: Description: Monitor: Section 16 Acronyms Page Acronyms: Page Index A B C E Index N O P R Index S T U W Page Notes