Z85C3010PSG Zilog, Z85C3010PSG Datasheet - Page 121

Z85C3010PSG

Manufacturer Part Number

Z85C3010PSG

Description

IC 10MHZ 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 Z85C3010PSG

Processor Type

Z80

Features

Error Detection and Multiprotocol Support

Speed

10MHz

Voltage

Mounting Type

Through Hole

Package / Case

40-DIP (0.620", 15.75mm)

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

10MHz

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

269-3934
Z85C3010PSG

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SCC™/ESCC™ User’s Manual

5.1 INTRODUCTION (Continued)

5.2.12 Write Register 9 (Master Interrupt

Control)

WR9 is the Master Interrupt Control register and contains

the Reset command bits. Only one WR9 exists in the SCC

and is accessed from either channel. The Interrupt control

bits are programmed at the same time as the Reset

command, because these bits are only reset by a

hardware reset. Bit positions for WR9 are shown in Figure

5-11.

Bit 7 and 6: Reset Command Bits

Together, these bits select one of the reset commands for

the SCC. Setting either of these bits to 1 disables both the

receiver and the transmitter in the corresponding channel;

forces TxD for that channel marking, forces the modem

control signals High in that channel, resets all IPs and IUSs

and disables all interrupts in that channel. Four extra PCLK

cycles must be allowed beyond the usual cycle time after

any of the reset commands is issued before any additional

commands or controls are written to the channel affected.

Null Command (00). This command has no effect. It is

used when a write to WR9 is necessary for some reason

other than an SCC Reset command.

Channel Reset B Command (01). Issuing this command

causes a channel reset to be performed on Channel B.

Channel Reset A Command (10). Issuing this command

causes a channel reset to be performed on Channel A.

Force Hardware Reset Command (11). The effects of

this command are identical to those of a hardware reset,

except that the Shift Right/Shift Left bit is not changed and

the MIE, Status High/Status Low and DLC bits take the

programmed values that accompany this command.

5-14

Write Register 9

D7 D6 D5 D4 D3

0 No Reset

Channel Reset B

Channel Reset A

Force Hardware Reset

Figure 5-11. Write Register 9

D2 D1 D0

VIS

DLC

MIE

Status High//Status Low

Software INTACK Enable

(Reserved on NMOS)

Bit 5: Software Interrupt Acknowledge control bit

If bit D5 is set, reading Read Register 2 (RR2) results in an

interrupt acknowledge cycle to be executed internally. Like

a hardware INTACK cycle, a software acknowledge caus-

es the INT pin to return High, the IEO pin to go Low, and

sets the IUS latch for the highest priority interrupt pending.

This bit is reserved on NMOS, and always writes as 0.

Bit 4: Status High//Status Low control bit

This bit controls which vector bits the SCC modifies to in-

dicate status. When set to 1, the SCC modifies bits V6, V5,

and V4 according to Table 5-6. When set to 0, the SCC

modifies bits V1, V2, and V3. This bit controls status in

both the vector returned during an interrupt acknowledge

cycle and the status in RR2B. This bit is reset by a hard-

ware reset.

Bit 3: Master Interrupt Enable

This bit is set to 1 to globally enable interrupts, and cleared

to zero to disable interrupts. Clearing this bit to zero forces

the IEO pin to follow the state of the IEI pin unless there is

an IUS bit set in the SCC. No IUS bit is set after the MIE

bit is cleared to zero. This bit is reset by a hardware reset.

Bit 2: Disable Lower Chain control bit

The Disable Lower Chain bit is used by the CPU to control

the interrupt daisy chain. Setting this bit to 1 forces the IEO

pin Low, preventing lower priority devices on the daisy

chain from requesting interrupts. This bit is reset by a hard-

ware reset.

Bit 1: No Vector select bit

The No Vector bit controls whether or not the SCC re-

sponds to an interrupt acknowledge cycle. This is done by

placing a vector on the data bus if the SCC is the highest

priority device requesting an interrupt. If this bit is set, no

vector is returned; i.e., AD7-AD0 remains tri-stated during

an interrupt acknowledge cycle, even if the SCC is the

highest priority device requesting an interrupt.

Table 5-6. Interrupt Vector Modiﬁcation

Status High/Status Low =0

Status High/Status Low =1

Ch B Transmit Buffer Empty

Ch B External/Status Change

Ch B Receive Char. Available

Ch B Special Receive Condition

Ch A Transmit Buffer Empty

Ch A External/Status Change

Ch A Receive Char. Available

Ch A Special Receive Condition

UM010901-0601

Z85C3010PSG Zilog, Z85C3010PSG Datasheet - Page 121

Z85C3010PSG

Specifications of Z85C3010PSG

Available stocks

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