Z85C3008PSG Zilog, Z85C3008PSG Datasheet - Page 145
Z85C3008PSG
Manufacturer Part Number
Z85C3008PSG
Description
IC 8MHZ Z8500 CMOS SCC 40-DIP
Manufacturer
Zilog
Series
SCCr
Specifications of Z85C3008PSG
Processor Type
Z80
Features
Error Detection and Multiprotocol Support
Speed
8MHz
Voltage
5V
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
40
Supply Voltage Range
5V
Operating Temperature Range
0°C To +70°C
Svhc
No SVHC (18-Jun-2010)
Base Number
85
Rohs Compliant
Yes
Clock Frequency
8MHz
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Other names
269-3930
Q2456016A
Z85C3008PSG
Q2456016A
Z85C3008PSG
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Application Note
Interfacing Z80
Z90H CPU TO Z8500 PERIPHERALS
During an I/O Read cycle, there are three Z8500
parameters that must be satisfied. Depending upon the
loading characteristics of the /RD signal, the designer may
need to delay the leading (falling) edge of /RD to satisfy the
Z8500 timing parameter TsA(RD) (Addresses Valid to /RD
Setup). Since Z80H timing parameters indicate that the
/RD signal may go Low after the falling edge of T2, it is
recommended that the rising edge of the system clock be
used to delay /RD (if necessary). The CPU must also be
placed into a Wait condition long enough to satisfy
TdA(DR) (Address Valid to Read Data Valid Delay) and
TdRDf(DR) (/RD Low to Read Data Valid Delay).
During an I/O Write cycle, there are three other Z8500
parameters that must be satisfied. Depending upon the
loading characteristics of the /WR signal and the data bus,
the designer may need to delay the leading (falling) edge
of /WR to satisfy the Z8500 timing parameters TsA(WR)
(Address Valid to /WR setup). Since Z80H timing
parameters indicate that the /WR signal may go Low after
the falling edge of T2, it is recommended that the rising
edge of the system clock be used to delay /WR (if
necessary). This delay will ensure that both parameters
are satisfied. The CPU must also be placed into a Wait
condition long enough to satisfy TwWR1 (/WR Low Pulse
Width). Assuming that the /WR signal is delayed, only two
5.
Z8500
Parameter
TsA(RD)
TdA(DR)
TdRDf(DR)
TwRD1
TsA(WR)
TsDW(WR)
TwWR1
6-10
TcC
TwCh
TfC
TdCr(A)
TdCr(RDf)
TdCr(IORQf)
TdCr(WRf)
TsD(Cf)
®
CPUs to the Z8500 Peripheral Family
Equation
Clock Cycle Period
Clock Cycle High Width
Clock Cycle Fall Time
Clock High to Address Valid
Clock High to /RD Low
Clock High to /IORQ Low
Clock High to /WR Low
Data to Clock Low Setup
Z80H
Equation
2TcC-TdCr(A)
6TcC+TwCh-TdCr(A)-TsD(Cf)
4TcC+TwCh-TsD(Cf)
4TcC+TwCh+TfC-TdCr(RDf)
/WR - delayed
2TcC-TdCr(A)
4TcC+TwCh+TfC
Table 10. Z80H Timing Parameter I/O Cycles
Table 11. Parameter Equations
additional Wait states are needed during an I/O Write cycle
when interfacing the Z80H CPU to the Z8500 peripherals.
To simplify the I/O interface, the designer can use the
same number of Wait states for both I/O Read and I/O
Write cycles. Figure 6 shows the minimum Z80H CPU to
Z8500 peripheral interface timing for the I/O cycles
(assuming that the same number of Wait states are used
for both cycles and that both /RD and /WR need to be
delayed). Figure 8 shows two suits that can be used to
delay the leading (falling) edge of either the /RD or the /WR
signals. There are several ways to place the Z80A CPU
into a Wait condition (such as counters or shift registers to
count system clock pulses), depending upon whether or
not the use wants to place Wait states in all I/O cycles, or
only during Z8500 I/O cycles. Tables 3 and 10 list the
Z8500 peripheral and the Z80H CPU timing parameters
(respectively) of concern during the I/O cycles. Tables 13
and 14 list the equations used in determining if these
parameters are satisfied. In generating these equations
and the values obtained from them, the required number
of Wait states was taken into account. The reference
numbers in Tables 3 and 10 refer to the timing diagram of
Figure 6.
Min
125
55
30
Value
170 min
695 min
523 min
503 min
170 min
>0 min
563 min
Max
10
80
60
55
55
Units
ns
ns
ns
ns
ns
ns
ns
UM010901-0601
Units
ns
ns
ns
ns
ns
ns
ns
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