Z85233 Datasheet, PDF(175/317 Page) Zilog, Inc. – The Zilog SCC Serial Communication Controller

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Z85233 Datasheet, PDF (175/317 Pages) Zilog, Inc. – The Zilog SCC Serial Communication Controller

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Application Note

The Z180â¢ Interfaced with the SCC at MHZ

(Continued)

/CSSCC

/WR

Ã

HCT74

DQ

CK

HCT04

HCT04

HCT164

A

Q0

B

Q1

/CLR Q2

Q3

CK Q4

Q5

Q6

Q7

HCT27

HCT02

HCT27

HCT27

To

85C30

/CE

To

85C30

/WR

To

85C30

/RD

/RD

/RESET

/MREQ

/M1

Internal

/WAIT

Input

4.7K

HCT04

HCT164

A

Q0

B

Q1

CLR Q2

Q3

CK Q4

Q5

Q6

Q7

HCT04

HCT04

/INTACK

HCT02

HCT02

HCT02

To 85C30

/INTACK

To

Z180

/WAIT

Figure 13. SCC I/O Read/Write Cycle Timing

This circuit works when [(Lower HCT164âs CLK â to Z180 /WAITâ ) + tws <tCHW]

If you are running your system slower than 8 MHz, remove

the HCT74, D-Flip/Flop in front of HCT164. Connect the

inverted CSSCC to the HCT164 B input. This is a required

Flip/Flop because the Z180 timing specification on tIOD1

(Clock High to /IORQ Low, IOC=0) is maximum at 55 ns

This is longer than half the PHI clock cycle. Sample it using

the rising edge of clock, otherwise, HCT164 does not

generate the same signals.

The RESET signal feeds the SCC /RD and /WR through

HCT27 and HCT02 to supply the hardware reset signal. To

reduce the gate count, drop these gates and make the

SCC reset by its software command. The SCC software

reset - 0C0h to Write Register 9, âHardware Reset

commandâ has the same effect as hardware reset by

âHardware.â

Interrupt Acknowledge Cycle Timing

The primary timing differences between the Z180 and

SCC occur in the Interrupt Acknowledge cycle. The SCC

timing parameters that are significant during Interrupt

Acknowledge cycles are in Table 10. The Z180 timing

parameters are in Table 10. The reference numbers in

Tables 10 and 11 refer to Figure 13.

6-40

UM010901-0601

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