Z16C3516VSG Zilog, Z16C3516VSG Datasheet - Page 179

Z16C3516VSG

Manufacturer Part Number

Z16C3516VSG

Description

IC 16MHZ Z8500 CMOS ISCC 68-PLCC

Manufacturer

Zilog

Series

IUSC™r

Datasheets

1.Z16C3510VSG.pdf (268 pages)

2.Z16C3510VSG.pdf (2 pages)

Specifications of Z16C3516VSG

Controller Type

Serial Communications Controller (SCC)

Interface

USB

Voltage - Supply

4.75 V ~ 5.25 V

Current - Supply

50mA

Operating Temperature

0°C ~ 70°C

Mounting Type

Surface Mount

Package / Case

68-LCC (J-Lead)

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

269-4690-5
Z16C3516VSG

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When the Z8002 CPU uses the lower half of the

Address/Data bus (AD0-AD7 the least significant byte) for

byte read and write transactions during I/O operations,

these transactions are performed between the CPU and

I/O ports located at odd I/O addresses. Since the Z-SCC is

attached to the CPU on the lower half of the A/D bus, its

registers must appear to the CPU at odd I/O addresses. To

achieve this, the Z-SCC can be programmed to select its

internal registers using lines AD5-AD1. This is done either

automatically with the Force Hardware Reset command in

WR9 or by sending a Select Shift Left Mode command to

INITIALIZATION

The Z-SCC can be initialized for use in different modes by

setting various bits in its Write registers. First, a hardware

reset must be performed by setting bits 7 and 6 of WR9 to

one; the rest of the bits are disabled by writing a logic zero.

Bisync mode is established by selecting a 16-bit sync

character, Sync Mode Enable, and a Xl clock in WR4. A

data rate of 9600 baud, NRZ encoding, and a data

character length of eight bits are among the other options

that are selected in this example (Table 2).

Note that WR9 is accessed twice, first to perform a

hardware reset and again at the end of the initialization

sequence to enable the interrupts. The programming

sequence depicted in Table 2 establishes the necessary

parameters for the receiver and the transmitter so that,

when enabled, they are ready to perform communication

tasks. To avoid internal race and false interrupt conditions,

it is important to initialize the registers in the sequence

depicted in this application note.

UM011001-0601

WR0B in channel B of the Z-SCC. For this application, the

Z-SCC registers are located at I/O port address ‘FExx’.

The Chip Select signal (/CS0) is derived by decoding I/O

address ‘FE’ hex from lines AD15-AD8 of the controller.

The Read/Write registers are automatically selected by the

Z-SCC when internally decoding lines AD5-AD1 in Shift

Left

automatically, the Z-SCC decodes lines AD5-AD1 in Shift

Left mode. The register map for the Z-SCC is depicted in

Table 1.

Address

(hex)

FE01

FE03

FE05

FE07

FE09

FE0B

FE0D

FE0F

FE11

FE13

FE15

FE17

FE19

FE1B

FE1D

FE1F

FE21

FE23

FE25

FE27

FE29

FE2B

FE2D

FE2F

FE31

FE33

FE35

FE37

FE39

FE3B

FE3D

FE3F

mode.

SCC in Binary Synchronous Communications

Table 1. Register Map

select

Write Register

WR10B

WR11B

WR12B

WR13B

WR14B

WR15B

WR10A

WR11A

WR12A

WR13A

WR14A

WR15A

B DATA

A DATA

WR0B

WR1B

WR3B

WR4B

WR5B

WR6B

WR7B

WR0A

WR1A

WR3A

WR4A

WR5A

WR6A

WR7A

WR2

WR9

WR2

WR9

the

Read/Write

Application Note

Read Register

B DATA

RR10B

RR12B

RR13B

RR15B

A DATA

RR10A

RR12A

RR13A

RR15A

RR0B

RR1B

RR2B

RR3B

RR0A

RR1A

RR2A

RR3A

registers

10-5

Z16C3516VSG Zilog, Z16C3516VSG Datasheet - Page 179

Z16C3516VSG

Specifications of Z16C3516VSG

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