OCM417中文资料
OCM4M 6, 4M 7 SERIES
Dual-Channel/Package General-purpose Type Optical MOS Relay For AC/DC Load
GENERAL DESCRIPTION
The OCM4M 6 and OCM4M 7 Series are dual-channel, optical MOS relays for AC/DC load. The device is available in the same form factor as single-channel devices, with an 8-pin DIP and SMD-type (gull-wing) package.
FEATURES
?Extremely low voltage control
?High reliability due to non-contact, optical operation ?No chattering or switch bounces ?No mechanical switching noises
?
Small size and easy mounting (6-pin plastic DIP or SMD-type [gull-wing] package)
APPLICATIONS
?Telecommunications equipment ?Measurement equipment ?Home electronics
?Automatic meter reading equipment
?Other applications requiring small size or high performance ?
Other applications requiring non-contact switches
E2P0068-37-X3
This version: Jan. 1998
Previous version: May. 1997
元器件交易网https://www.wendangku.net/doc/929993448.html,
PIN CONFIGURATION
(Unit: mm)
1: Anode 2: Cathode 3: Anode 4: Cathode 5: Drain 6: Drain 7: Drain 8: Drain ? Pin Connection Diagram
(LED1)(LED1)(LED2)(LED2)
(MOS FET2)(MOS FET2)(MOS FET1)(MOS FET1)
? Through hole (Bottom view)? Mounting pad (Top view)
? DIP Type
? SMD Type (gull-wing)
0°+15–0
0°+15–0
1
8
4
5
8.68
±0.5
0.85
±0.2
1.2
±0.2
5.93±0.25
5.68
±0.25
2.54±0.1
0.5±0.2
0.5±0.27.62
6.4±0.3
7.62±0.15
0.25±0.03
3.65±0.2
4.75m a x .
0.8±0.2
2.8±0.35
18
4
5
8.68±0.5
0.85±0.2
1.2±0.2
2.54±0.17.62
6.4±0.3
0.5±0.20.5±0.2
3.65±0.2
4.0±0.2
0.25±0.03
1.1±0.4
1.1±0.4
9.9±0.6
ABSOLUTE MAXIMUM RATINGS
Product Name
Parameter Symbol
Condition Unit OCM406OCM407I n p u t C h a r a c t e r i s t i c s
Derating Factor of Continuous Forward Current
I F
Pulse width 100 m s Cycle 10 ms
Pulse width 1 ms 1shot
(Ambient temperature Ta=25°C )
OCM416OCM417OCM426OCM427OCM436OCM437Continuous Forward Current Peak Forward Current Reverse Voltage Power Dissipation Load Voltage Load Current Derating Factor of Load Current Surge Load Current Power Dissipation
Storage Temperature
Operating Temperature Isolation Voltage Total Power Dissipation O u t p u t C h a r a c t e r i s t i c s
D I F
I FM V R P DL V OFF I ON D I ON I SUG P D
P tot
V IO T opr T stg
mA mA/°C
A V mW V mA mA/°C
A mW mW
V(rms)
°C °C
50
Refer to [Derating Factor of Continuous Forward Current] of characteristics data
0.55200150
Refer to [Derating Factor of Load Current] of characteristics data 0.5
3003251500
OCM4264000
OCM427–40 to +85–40 to +100
350100
OCM436OCM437100200
OCM416OCM41760250
OCM406OCM40775
0.3
OCM446
OCM44740075
OCM446
OCM447
ELECTRICAL CHARACTERISTICS
Product Name
Parameter Symbol
Condition Unit OCM406OCM407I n p u t C h a r a c t e r i s t i c s
Reverse Voltage
V F V OFF =50 V f=1 MHz (Ambient temperature Ta=25°C )
OCM416OCM417OCM426OCM427OCM436OCM437Forward Voltage Recovery Input Current On-resistance Off-state Leakage Current Output Terminal Capacitance O u t p u t C h a r a c t e r i s t i c s
I R
I FR R ON
I OFF C OUT Min.m A
mA W
m A pF 1.0100.2
1.0
Max.
I F =10 mA V
V R =5 V Max. 1.3Operation Input Current I FA
mA
5I ON =100 mA or Rating Max.V OFF =Rating I ON =100 m A
Min.*1Min.7.0173.02.0Typ.1024
4.0
3.0
Max.
I F =10 mA I ON =100 mA
*2V OFF =Rating Max.Typ.Input-to-output Capacitance C IO
pF 1.3f=1 MHz
Typ.t ON Turn-on Time Typ.0.3Max.I F =10 mA
I on =100 mA ms 1.0t OFF
Turn-off Time
Typ.0.2Max.
ms
1.0
C o u p l i n g C h a r a c t e r i s t i c s OCM406, 407OCM416, 417OCM426, 427OCM446
OCM4472233
1512
25
35
10
I off =50 mA
OCM436, 437OCM446, 447
*3*3OCM406, 407, 416, 417OCM426, 427
I ON =Rating Time to flow current is within one second
4.07.02.01.0
10*4
*1 : Can correspond to special specification I FA <3.0 mA *2 : Can correspond to special specification I OFF <1.0 nA
*3 : Can correspond to special specification t ON / t OFF <0.5 ms *4 : Except (OCM406, 407, 416, 417, 426, 427)
TYPICAL CHARACTERISTICS
?Derating Factor of Continuous Forward Current
?Derating Factor of Load Current
?Operation Input Current vs.Ambient Temperature
?Recovery Input Current vs.Ambient Temperature
0–40
050100
30
10
20
40
50
Temperature Ta (°C)
C o n t i n u o u s F o r w a r d C u r r e n t I F (m A
)
60
0–40
50
100
300
200
100
Temperature Ta (°C)
C o n t i n u o u s L o a d C u r r e n t I O N (m A )
400
500
600
0–40
050100
5
10
Temperature Ta (°C)
O p e r a t
i o n I n p u t C u r r e n t I F A (m A )
–40
050100
Temperature Ta (°C)
R e c o v e r y I n p u t C u r r e n t I F A (m A )
?On-resistance vs. Ambient Temperature 1
?On-resistance vs. Ambient Temperature 2
–40
50
100
Temperature Ta (°C)O n -r e s i s t a n c e R O N (W )
–40
050100
20
Temperature Ta (°C)
O n -r e s i s t a n c e R O N (W )
?Continuous Forward Current vs.Turn-on/Turn-off Time
?Output Terminal Capacitance vs.Applied Voltage
?Continuous Forward Current vs.On-resistance 1
?Continuous Forward Current vs.On-resistance 2
?Turn-on/Turn-off Time vs.Ambient Temperature
?Off-state Leakage Current vs.Ambient Temperature
1
10
Input Current I F (mA)T u r n -o n / T u r n -o f f T i m e (m s )
0.2
Applied Voltage (V)
O u t p u t T e r m i n a l C a p a c i t a n c e C o u t (p F )
10
100
1
1000
00
10
Input Curren I F (mA)O n -r e s i s t a
n c e R O N (W )
5
10
20
Input Current I F (mA)
O n -r e s i s t a n c e R
O N (W )
10
20
–40
050100Temperature Ta (°C)T u r n -o n /T u r n -o f f T i m e (m s )
10
–40050100
10
10
–8
10
Temperature Ta (°C)
O f f -s t a t e L e a k a g e C u r r e n t I O F F (A )
?Load Current vs. Voltage
?Example Circuit for Measuring Turn-on/Turn-off Time
I F
V OUT
V OUT
Voltage (V)
–2.5
250
–250
0 2.5
L o a d C u r r e n t I O N
(m A )