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  • A-B 81007-465-51-R Thermal resistance module
A-B 81007-465-51-R Thermal resistance module

A-B 81007-465-51-R Thermal resistance module

A-B 81007-465-51-R Thermal resistance module

The MVME162 draws power from VMEbus backplane connectors P1 and P2. P2 is also used for the upper 16 bits of data in 32-bit transfers, and for the upper 8 address lines in extended addressing mode. The MVME162 may not function properly without its main board connected to VMEbus backplane connectors P1 and P2. Whether the MVME162 operates as a VMEbus master or as a VMEbus slave, it is configured for 32 bits of address and 32 bits of data (A32/D32). However, it handles A16 or A24 devices in the address ranges indicated in Chapter 3. D8 and/or D16 devices in the system must be handled by the MC68040/ MC68LC040 software. Refer to the memory maps in Chapter 3

System Considerations

The MVME162 contains shared onboard DRAM whose base address is software-selectable. Both the onboard processor and offboard VMEbus devices see this local DRAM at base physical address $00000000, as programmed by the MVME162Bug firmware. This may be changed via software to any other base address. Refer to the MVME162 Embedded Controller Programmer’s Reference Guide for more information. If the MVME162 tries to access offboard resources in a nonexistent location and is not system controller, and if the system does not have a global bus timeout, the MVME162 waits forever for the VMEbus cycle to complete. This will cause the system to lock up. There is only one situation in which the system might lack this global bus timeout: when the MVME162 is not the system controller and there is no global bus timeout elsewhere in the system. Multiple MVME162s may be installed in a single VME chassis. In general, hardware multiprocessor features are supported.

If you are installing multiple

 MVME162s in an MVME945 chassis, do not install an MVME162 in slot 12. The height of the IP modules may cause clearance difficulties in that slot position. Other MPUs on the VMEbus can interrupt, disable, communicate with, and determine the operational status of the processor(s). One register of the GCSR (global control/status register) set includes four bits that function as location monitors to allow one MVME162 processor to broadcast a signal to any other MVME162 processors. All eight registers are accessible from any local processor as well as from the VMEbus

                                          

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