Z85C3010PSG Zilog, Z85C3010PSG Datasheet - Page 291

IC 10MHZ Z8500 CMOS SCC 40-DIP

Z85C3010PSG

Manufacturer Part Number
Z85C3010PSG
Description
IC 10MHZ Z8500 CMOS SCC 40-DIP
Manufacturer
Zilog
Series
SCCr
Datasheets

Specifications of Z85C3010PSG

Processor Type
Z80
Features
Error Detection and Multiprotocol Support
Speed
10MHz
Voltage
5V
Mounting Type
Through Hole
Package / Case
40-DIP (0.620", 15.75mm)
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
10MHz
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Other names
269-3934
Z85C3010PSG

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Application Note
On-Chip Oscillator Design
PRACTICE: CIRCUIT ELEMENT AND LAY OUT CONSIDERATIONS
The discussion now applies prior theory to the practical
application.
Amplifier and Feedback Resistor
The elements of the circuit, internal to the IC, include the
amplifier, feedback resistor, and output resistance. The
amplifier is modeled as a transconductance amplifier with
a gain specified as I
Transconductance/Gain. The loop gain AB = gm x Z1,
where gm is amplifier transconductance (gain) in
amps/volt and Z1 is the load seen by the output. AB must
be greater than unity at and about the frequency of
operation to sustain oscillation.
6-156
OUT
**
*
External components typically: CIN = COUT = 30 to 50 pf (add 10 pf pin cap).
Inside chip, feedback resistor biases the amplifier in the high gm region.
/V
IN
(amps per volt).
DC Bias
Figure 7. Transconductance (gm) Measurement
VIN
CIN
OSC IN
Figure 8. Quartz Oscillator Configuration
V
in
IC Under Test
I
out
Quartz
Rq, f
= (V
Amplifier
out
Gain Measurement Circuit. The gain of the amplifier can
be measured using the circuits of Figures 6 & 7. This may
be necessary to verify adequate gain at the frequency of
interest and in determining design margin.
Gain Requirement vs. Temperature, Frequency and
Supply Voltage. The gain to start and sustain oscillation
(Figure 8) must comply with:
Output Impedance. The output impedance limits power to
the XTAL and provides small phase shift with load cap C2.
V
where:
M is a quartz form factor = (1 + C
gm > 4
– V ) /33)
out
OSC OUT
b
33
2
f
2
COUT
VOUT
Rq C
IN
DC Bias
C
V
OUT
b
**
*
t x M
OUT
/C
IN
+ C
UM010901-0601
OUT
/C
OUT
)
2

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