
Theory of Operation
3-48 2715 Spectrum Analyzer Service Manual
MKR2_LT. This signal becomes active (high) at any access to the Marker 2 po rt
addresses (I/O port addresses0xFE00 through 0xFFFF). This signal also causes
the UPREQ signal to become active.
Table3 --11 is the memory map for the Display Storage board.
Table3 -11: Memory Map for the Display Storage Board
Name
TotalNum-
ber of Bytes
Address
Range Decoded
Signal
Name
Memory
Type
Control Registers (512 bytes) 0x0FA000x0FBFF PORTVEC I/O Port
Marker1 Position (512 bytes) 0x0FC000x0FDFF MKR1_LT I/O Port
Marker2 Position (512 bytes) 0x0FE000x0FFFF MKR2_LT I/O Port
Nonvolatile
Waveform Storage (28,672 bytes) 0x380000x3EFFF UPREQ Memory
Storage - Waveform A (512bytes) 0x3F0000x31FFF UPREQ Memory
Storage - Waveform B (512bytes) 0x3F2000x3F3FF UPREQ Memory
Storage - Waveform C (512 bytes) 0x3F4000x3F5FF UPREQ Memory
Storage - Waveform D (512 bytes) 0x3F6000x3F7FF UPREQ Memory
Storage - TextPage 1
(Readouts) (512 bytes) 0x3F8000x3F9FF UPREQ Memory
Storage - TextPage 2 (512bytes) 0x3FA000x3FBFF UPREQ Memory
Storage - TextPage 3 (512bytes) 0x3FC000x3FDFF UPREQ Memory
Storage - TextPage 4 (512bytes) 0x3FE000x3FFFF UPREQ Memory
The following paragraph describesa typical CP U reador write of the Display
Storage board.
The CPU begins by presenting the read orwrite address to the Display Storage
board on the BA<19..0> lines. The upper eleven addresslines (BA<19..9>) are
fed into the address decoder PAL,U29. If the address is inside the range for the
Display Storage board the UPREQ signal becomeshigh, and the appropriate
enable signal becomesactive (PORTVEC, MKR1_LT, or MKR2_LT).The
UPREQ signal is a request for access to th eD isplay Storage board, and it feeds
the RAM arbitrator.As soon as the UPREQ signal becomes active, the CPU
BWAIT_Lsignal is pulled low, forcing the CPU into a wait state. The CPU will
remain in this wait state until the R AM arbitrator allows the CPU to access the
board. The RAM arbitrator will bring theUP GRNT_L signal low,when it is
ready to allow the CPU to access the Disp lay Storage board. When UPGRNT_L
goes low, the databus transceiver, U22, is enabled as well as the RDEN and
WREN signals to the rest of the Display Storage board.