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| M66701P Datasheet, PDF (1/4 Pages) Mitsubishi Electric Semiconductor – DUAL HIGH-SPEED CCD CLOCK DRIVER | |||
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MITMSUITBSIUSBHISâ©HDIGâ©DITIAGLITALSSAPSâªSPâª
M667M06617P01P
DESCRIPTION
M66701P Semiconductor Integrated Circuit is built in facsimi-
les and photocopiers to drive CCD linear image sensor data
transfer clocks at high speeds. Because this IC takes in data
on the TTL (transistor-transistor logic) level, it can be driven
directly by a TTL integrated circuit.
FEATURES
⢠Wide operating voltage range VCC = 8V~13.2V
APPLICATION
Driving of CCD image sensors in facsimiles, image scanners
and photocopiers
DUADLUHAILGHHI-GSPHE-SEPDECECDDCCCLDOCCLKODCRKIVDERRIVER
PIN CONFIGURATION (TOP VIEW)
NC 1
INTPUT INA â 2
GND 3
INTPUT INB â 4
8 NC
7 â OUTA OUTPUT
6 VCC
5 â OUTB OUTPUT
Outline 8P4
NC: No Connection
ABSOLUTE MAXIMUM RATINGS (Ta = 0 ~ 70°C unless otherwise noted)
Symbol
Parameter
Conditions
Ratings
Unit
VCC
Supply voltage
â0.5 ~ +15
V
VI
Input voltage
â0.5 ~ +15
V
VO
Output voltage
Output: âHâ
VCC
V
Pd
Power dissipation
For single integrated
circuit; Ta = 25°C (Note 1)
950
mW
Tstg
Storage temperature
â65 ~ 150
°C
Note 1: When Ta is 25°C or higher, conduct derating as follows: 7.7mW/C° (P) /14.4mW/°C (WP).
RECOMMENDED OPERATIONAL CONDITIONS
Symbol
Parameter
VCC
Supply voltage
VIH
âHâ input voltage
VIL
âLâ input voltage
Topr
Operating temperature
Limits
Unit
Min.
Typ.
Max.
8.0
12.0
13.2
V
2.0
V
0.8
V
0
70
°C
ELECTRICAL CHARACTERISTICS (VCC = 8.0 ~ 13.2V, Ta = 0 ~ 70°C unless otherwise noted)
Symbol
Parameter
Test conditions
Limits
Unit
Min. Typ. (Note 2) Max.
VIH
âHâ input voltage
2.0
V
VIL
âLâ input voltage
0.8
V
VIC
Input clamp voltage
IIC = â18mA
â0.82
â1.5
V
VOH
âHâ output voltage
VI = 0.4V, IOH = â1mA
VCC â 1
11.3
V
VOL
âLâ output voltage
VI = 2.0V, IOL = +1mA
0.23
0.5
V
IIH
âHâ input current
VI = 5.5V
100
µA
IIL
âLâ input current
VCC = 12V, VI = 0.4V
â0.13
â0.4
mA
ICC H
âHâ supply current
VCC = 12V, VI = 0.0V
5.3
8
mA
ICC L
âLâ supply current
VCC = 12V, VI = 4.5V
26
35
mA
Note 2: Standard values are measured under VCC = 12V and Ta = 25°C.
1
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