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AN8387S Datasheet, PDF (2/6 Pages) Panasonic Semiconductor – 2-channel Linear Driver
AN8387S
s Absolute Maximum Ratings (Ta=25˚C)
Parameter
Symbol
Supply Voltage
VCC
Power Dissipation
PD
Operating Ambient Temperature
Topr
Storage Temperature
Tstg
Note) When mounted onto the glass epoxy PCB (50mm × 50mm × 0.8mm)
ICs for CD/CD-ROM Player
Rating
Unit
10
V
1,200 Note)
mW
–30 ~ +85
˚C
–55 ~ +125
˚C
s Recommended Operating Range (Ta=25˚C)
Parameter
Symbol
Operating Supply Voltage Range
VCC
P.VCC
Range
3.5V ~ 9V
1.5V ~ 9V
s Electrical Characteristics (Ta=25˚C)
Parameter
Current Consumption at No Input (VCC)
Current Consumption at No Input (PVCC)
PVCC Leak Current
Vref Threshold (H) Note 1)
Vref Threshold (L) Note 2)
Input Amp. Input Impedance
Driver Input Offset Voltage Note 3)
Driver Output Offset Voltage Note 3)
Driver Dead Zone Width Note3)
Driver Transfer Gain (+) Note3)
Driver (+), (–) Transfer Gain Ratio Note 3)
Driver Output Voltage
Symbol
IVCCQ
IPVCCQ
IPVCCL
VrefH
VrefL
RAIN
VI offset
VO offset
|VDZ|
G+
RG
VOLG
Driver Output Voltage Absolute Value
Driver Power Transistor Saturation
Voltage
PC Input Pin Threshold Voltage (H) Note 4)
|VOL|
Vsat
VPC THH
PC Input Pin Threshold Voltage (L) Note 5)
Protective Diode Forward Voltage
Thermal Protective Circuit Operating
Temperature
VPC THL
VPD
TTHD
Condition
VCC=9V, Vref=4.5V, PVCC=9V
VCC=9V, Vref=4.5V, PVCC=9V
VCC=0V, Vref=OPEN, PVCC=10V
VCC=3V, PVCC=10V, VIN=0V
VCC=3V, PVCC=10V, VIN=0V
VCC=5V, Vref=2.5V,
VIN=2.4→2.6V
VCC=9V, Vref=4.5V, PVCC=9V
VCC=9V, Vref=4.5V, PVCC=9V
VCC=9V, Vref=4.5V, PVCC=9V
VCC=9V, Vref=4.5V, PVCC=9V
VCC=9V, Vref=4.5V, PVCC=9V
VCC=9V, Vref=4.5V, PVCC=9V,
VLIM=0V
VCC=9V, Vref=4.5V, PVCC=9V,
VLIM=3V
VCC=9V, Vref=4.5V, PVCC=9V,
IO=300mA
VCC=9V, Vref=2.5V, PVCC=5V,
VIN=2.3V
VCC=9V, Vref=2.5V, PVCC=5V,
VIN=2.3V
IO=300mA
min.
1
0.7
1.45
0.75
–10
–55
–10
13
–1.9
–130
typ.
2
1.2
max.
3.5
3.5
1
1
1 1.25
0
10
0
55
19
15.1
17
– 0.9
0.5
130
Unit
mA
mA
µA
V
V
kΩ
mV
mV
mV
dB
dB
mV
2.25
3
V
0.29 0.38
V
2.8
V
0.8
V
0.9
1.5
1.8
V
160
˚C
Note1)
Note2)
Note3)
Note4)
Note5)
Vref voltage required to operate the driver.
If Vref is made lower than this voltage, the driver dose not operate.
Refer to the driver input/output characteristics chart.
If the PC pin voltage is made higher than this voltage, there will be no output voltage from the driver. Both (+) and (–)
outputs are pulling in the current.
If the PC pin voltage is made lower than this voltage, the driver operates normally.