Electrical Characteristics: (TA = +25°C, VDD = –15V, GND = 0V unless otherwise specified)
Parameter
Symbol
Test Condition
Min Typ Max Unit
Input Drain Current
Total Power Dissipation
OX1 Input Pin
IDD No load
Ptot Clock Output 40kHZ
–
3
–
mA
–
45
–
mW
Voltage “H” Level
Voltage “L” Level
Input Leakage Current
OX2 Output Pin
VIH
VIL
ILeak
VI = 0V to –15V
0
–
VDD+1 –
–
–
–1
V
VDD
V
30
µA
Output Current “H” Level
Output Current “L” Level
Output Leakage Current
OX3 Output pin
IOH(1)
IOL(1)
ILOL(1)
VO = –1V
VO = –14V
VO = VDD
VO = GND
0.6
–
–
mA
0.5
–
–
mA
–
–
30
µA
–
–
30
µA
Output Current “H” Level
Output Current “L” Level
Output Leakage Current
CP1, CP2 output pin
IOH(2)
IOL(2)
ILOL(2)
VO = –1V
VO = –14V
VO = VDD
VO = GND
1.5
–
–
mA
2
–
–
mA
–
–
30
µA
–
–
30
µA
Output Current “H” Level IOH(3) VO = –1V
Output Current “L” Level IOL(3) VO = –14V
Output Leakage Current
ILOL(3) VO = VDD
VO = GND
VGG OUT output pin (Note 1)
Output Voltage
VGG(Out)
10
–
–
mA
10
–
–
mA
–
–
30
µA
–
–
30
µA
–14
V
Note 1. This pin generates the VGG voltage for a BBD manufac-
tured by NTE. So therefore, it might not be applicable for
other devices. In any case, the VGG(OUT) changes by the
following formula depending on the value of VDD.
14
VGG(OUT) ≅ 15 VDD