XRT83L314 Datasheet, PDF(51/84 Page) Exar Corporation – 14-CHANNEL T1/E1/J1 LONG-HAUL/SHORT-HAUL LINE INTERFACE UNIT

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XRT83L314 Datasheet, PDF (51/84 Pages) Exar Corporation – 14-CHANNEL T1/E1/J1 LONG-HAUL/SHORT-HAUL LINE INTERFACE UNIT

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XRT83L314

14-CHANNEL T1/E1/J1 LONG-HAUL/SHORT-HAUL LINE INTERFACE UNIT

REV. 1.0.0

5.3 MOTOROLA MODE PROGRAMMED I/O ACCESS (SYNCHRONOUS)

If the LIU is interfaced to a Motorola type ÂµP, it should be configured to operate in the Motorola mode. Motorola

type programmed I/O Read and Write operations are described below.

Motorola Mode Read Cycle

Whenever a Motorola type ÂµP wishes to read the contents of a register, it should do the following.

1. Place the address of the target register on the address bus input pins ADDR[10:0].

2. While the ÂµP is placing this address value on the address bus, the address decoding circuitry should

assert the CS pin of the LIU, by toggling it "Low". This action enables further communication between the

ÂµP and the LIU microprocessor interface block.

3. The ÂµP should then toggle the TS pin "Low". This step causes the LIU to latch the contents of the address

bus into its internal circuitry. At this point, the address of the register has now been selected.

4. Next, the ÂµP should indicate that this current bus cycle is a Read operation by pulling the R/W input pin

"High".

5. Toggle the WE input pin "Low". This action enables the bi-directional data bus output drivers of the LIU.

6. After the ÂµP toggles the WE signal "Low", the LIU will toggle the TA output pin "Low". The LIU does this in

order to inform the ÂµP that the data is available to be read by the ÂµP, and that it is ready for the next com-

mand.

7. After the ÂµP detects the TA signal and has read the data, it can terminate the Read Cycle by toggling the

WE input pin "High".

Motorola Mode Write Cycle

Whenever a motorola type ÂµP wishes to write a byte or word of data into a register within the LIU, it should do

the following.

1. Place the address of the target register on the address bus input pins ADDR[10:0].

2. While the ÂµP is placing this address value on the address bus, the address decoding circuitry should

assert the CS pin of the LIU, by toggling it "Low". This action enables further communication between the

ÂµP and the LIU microprocessor interface block.

3. The ÂµP should then toggle the TS pin "Low". This step causes the LIU to latch the contents of the address

bus into its internal circuitry. At this point, the address of the register has now been selected.

4. Next, the ÂµP should indicate that this current bus cycle is a Write operation by pulling the R/W input pin

"Low".

5. Toggle the WE input pin "Low". This action enables the bi-directional data bus output drivers of the LIU.

6. After the ÂµP toggles the WE signal "Low", the LIU will toggle the TA output pin "Low". The LIU does this in

order to inform the ÂµP that the data has been written into the internal register location, and that it is ready

for the next command.

7. After the ÂµP detects the TA signal and has read the data, it can terminate the Read Cycle by toggling the

WE input pin "High".

The Motorola Read and Write timing diagram is shown in Figure 43. The timing specifications are shown in

Table 19.

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