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G3VM-51PR Datasheet, PDF (1/3 Pages) Omron Electronics LLC – Smallest Class in market, USOP Package MOS FET Relays is designed to exhibit a fast rise time and reduce signal degradation.
G3VM-51PR
MOS FET Relays
Smallest Class in market, USOP
Package MOS FET Relays is designed to
exhibit a fast rise time and reduce signal
degradation.
• ERT(Equivalent Rise Time): 40 ps (typ.), 90 ps (max)
• Dielectric strength of 500Vrms between I/O.
RoHS Compliant
Refer to "Common Precautions".
■Application Examples
Note: The actual product is marked differently from the
image shown here.
■Terminal Arrangement/Internal Connections
• Semiconductor test
equipment
• Test & measurement
equipment
■List of Models
• Communication
equipment
• Data loggers
OMRON mark
5P0
103
Model name
LOT No.
Note: The actual product is marked differently from the image shown here.
Package type Contact form
Terminals
Load voltage (peak value)
(See note.)
USOP4
1a
(SPST-NO)
Surface-mounting terminals
50V
Model
G3VM-51PR
G3VM-51PR (TR05)
G3VM-51PR (TR)
Minimum package quantity
Number per tape & reel
−
500
1,500
Note 1. Ask you OMRON representative for orders under 1,500 pcs or 500 pcs.
2. Tape-cut USOPs are packaged without humidity resistance. Use manual soldering to mount them. Refer to common precautions.
3. The AC peak and DC value is given for the load voltages.
■Absolute Maximum Ratings (Ta = 25°C)
Item
Symbol
Rating
LED forward current
IF
50
U
S
LED forward current reduction rate
LED reverse voltage
O
Connection temperature
P
Load voltage (AC peak/DC)
ΔIF/°C
−0.5
VR
5
TJ
125
VOFF
50
Continuous load current (AC peak/DC)
IO
300
G
3
V
ON current reduction rate
Pulse ON current
Connection temperature
ΔIO/°C
−3.0
lop
900
TJ
125
M Dielectric strength between I/O (See note 1.)
VI-O
500
I Ambient operating temperature
Ta
−40 ~ +85
5 Ambient storage temperature
Tstg
−40 ~ +125
1
P
Soldering temperature
−
260
R ■Electrical Characteristics (Ta = 25°C)
Unit
mA
mA/°C
V
°C
V
mA
mA/°C
mA
°C
Vrms
°C
°C
°C
Measurement conditions
Ta≥25°C
Ta≥25°C
t=100ms, Duty=1/10
AC for 1 min
With no icing or condensation
With no icing or condensation
10s
Note: 1.The dielectric strength between the
input and output was checked by
applying voltage between all pins as
a group on the LED side and all pins
as a group on the light-receiving
side.
Item
Symbol Minimum Typical Maximum Unit Measurement conditions
LED forward voltage
Reverse current
Capacity between terminals
VF
1.0
1.15
1.3
V IF=10mA
IR
−
−
10
μA VR=5V
CT
−
15
−
pF V=0, f=1MHz
Note: 2.Turn-ON and Turn-OFF Times
IF 1
2
4 RL
VDD
IF
3
VOUT
Trigger LED forward current
IFT
−
0.5
3
mA IO=100mA
Maximum resistance with output ON RON
−
1
1.5
Ω IF=5mA, IO=300mA, t<1s
VOUT
t ON
10%
90%
t OFF
Current leakage when the relay is
open
ILEAK
−
−
Capacity between terminals
COFF
−
12
Capacity between I/O terminals
CI-O
−
0.4
1
nA VOFF=50V
Note: 3.ERT (Equivalent Rise Time)
−
pF V=0, f=100MHz, t<1s
250mV
−
pF f=1MHz, VS=0V
90%
250mV
ERT=√(trout2ʵtrin2)
90%
Insulation resistance between I/O
terminals
Turn-ON time
Turn-OFF time
Equivalent rise time
RI-O 1000
−
tON
−
0.2
tOFF
−
0.1
ERT
−
40
−
MΩ VI-O=500VDC, ROH≤60%
0.5
ms IF=5mA, RL=200Ω,
0.4
ms VDD=20V (See note 2.)
90
ps
IF=5mA, VDD=0.25V,
Tr(in)=25ps (See Note.3)
10%
0V
trin
Input waveform
10%
0V
trout
Output waveform
1