Z85C3008PSG Zilog, Z85C3008PSG Datasheet - Page 200

Z85C3008PSG

Manufacturer Part Number

Z85C3008PSG

Description

IC 8MHZ Z8500 CMOS SCC 40-DIP

Manufacturer

Zilog

Series

SCCr

Datasheets

1.Z85C3008PSG.pdf (71 pages)

2.Z85C3008PSG.pdf (4 pages)

3.Z85C3008PSG.pdf (317 pages)

Specifications of Z85C3008PSG

Processor Type

Z80

Features

Error Detection and Multiprotocol Support

Speed

8MHz

Voltage

Mounting Type

Through Hole

Package / Case

40-DIP (0.620", 15.75mm)

Maximum Operating Temperature

+ 70 C

Minimum Operating Temperature

0 C

Mounting Style

Through Hole

Cpu Speed

8MHz

Digital Ic Case Style

DIP

No. Of Pins

Supply Voltage Range

Operating Temperature Range

0Â°C To +70Â°C

Svhc

No SVHC (18-Jun-2010)

Base Number

Rohs Compliant

Yes

Clock Frequency

8MHz

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

269-3930
Q2456016A
Z85C3008PSG

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Current page: 200 of 317
Download datasheet (4Mb)

UM010901-0601

For a multiplexed part (80 x 30), the Select Shift Left

command (D1-0=11) should be written to Channel B’s

WR0 before any other registers are accessed. Then the

The redundant addressing of the (E)SCC is used to control

a feature that can be used by software to allow the user to

interrupt software execution from his keyboard. If the

(E)SCC is read at an address with A6-A5=11 (for a

multiplexed part this means in the higher-addressed A

channel), a mode is set in which a low on the console

Received Data line (i.e., a Start bit on pin 3 of the J1

ISCC

Since

addresses and data, the ISCC is configured to use the

addresses on the AD lines. Therefore, software can

address the various ISCC registers directly, and need not

be concerned with writing register addresses into the

indirect address fields of the ISCC’s WR0 and CCAR.

Because the ISCC includes four DMA channels, its

Channel A and B Transmitters and Receivers can be

handled on a polled, interrupt-driven, and/or DMA basis, in

any mixture.

Since the ISCC can only be programmed as an 8-bit

device on the AD7-AD0 lines, it occupies only the even-

addressed bytes within its address range, (PBA)+128

through (PBA)+254.

The first write to this address range, after a Reset,

implicitly writes the ISCC’s Bus Configuration Register

(BCR). To match up with the rest of the board’s hardware,

this first write should be a byte write that stores the

hexadecimal value C6 in any even address in the first half

of the ISCC’s address range [(PBA)+128 through

(PBA)+190]. Details of this transaction are as follows:

The High induced by a pull-up resistor on the ISCC’s A/B

input selects the WAIT protocol on the /WAIT//RDY pin,

which corresponds to how the 80186 works. (In

subsequent register accesses, the A/B selection is

taken from A5 of the multiplexed address.)

(PBA), (PBA)+2, ... (PBA)+30

(PBA)+32, +34, ... (PBA)+62

(PBA)+64, +66, ... (PBA)+94

(PBA)+96, +98, ... (PBA)+126

the

80186

processor

provides

multiplexed

basic (E)SCC register map occurs twice in the even

addresses from (PBA) through (PBA)+126:

connector) causes a Non-Maskable Interrupt on the

80186. The mode is cleared by Reset, or when the (E)SCC

is read at an address with A6-A5=10 (on a multiplexed

part, in the higher-addressed B channel). The NMI handler

should do the latter fairly quickly to prevent subsequent

data bits on Received Data from causing further NMIs.

A Low on the ISCC’s SCC//DMA input, which is

connected to A6, is required by the internal logic of the

ISCC. This is why the BCR write is restricted to the first

half of the ISCC’s address range.

As with all transactions between the 80186 and ISCC,

the address must be even because the ISCC only

accepts slave-mode data on the AD7-AD0 pins.

The MSB of the data (D7) is 1 to enable the Byte Swap

feature, so that when the ISCC’s DMA controller is

reading transmit data from RAM, it takes alternate bytes

from AD7-AD0 and AD15-AD8.

D6 of the data is 1 so that when the ISCC’s DMA

controller is reading transmit data from RAM, it takes

even-addressed bytes from D7-D0 and odd-addressed

bytes from D15-D8 (same function as the 80186).

D2-D1 of the data are 11 to select double-pulsed mode

for the ISCC’s /INTACK input. Again, this is how the

80186 works.

D0 of the data is 0 to select Shift Left Address mode so

that the ISCC subsequently takes register addressing

from the AD5-AD1 lines rather than from AD4-AD0. This

is because the 80186 is a 16-bit processor that locates

even-addressed bytes on AD7-AD0 and odd-addressed

bytes on AD15-AD8, but the ISCC only accepts slave-

mode writes on the AD7-AD0 pins.

Channel B registers 0-15

Channel A registers 0-15

Channel B registers 0-15

Channel A registers 0-15

The Zilog Datacom Family with the 80186 CPU

Application Note

6-65

Z85C3008PSG Zilog, Z85C3008PSG Datasheet - Page 200

Z85C3008PSG

Specifications of Z85C3008PSG

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