ESDA6V1W6(SOT 363)

WILLAS
FM120-M+
(6'$9:
THRU
Transient
Voltage
Suppressors
for ESDRECTIFIERS
Protection-20V- 200V
FM1200-M+
1.0A SURFACE
MOUNT
SCHOTTKY BARRIER
Pb Free Produc
SOD-123+ PACKAGE
Features
General
Features
process design, excellent power dissipation offers
• BatchDescription
better
reverse leakage
and thermal
resistance.z
The
ESDA6V1W6
is current
monolithic
suppressor
• Low profile surface mounted application in order to
designed
to protect
components connected to
z
optimize
board space.
Low
power
loss,
high
efficiency.
•
data and transmission lines against ESD. This
z
• High current capability, low forward voltage drop.
device
clamps
the voltage just above the logic
z
surge capability.
• High
Guardring
overvoltage
protection.
level •supply
for for
positive
transients
and to a diode
Ultra high-speed switching.
•
drop below ground for negative transients.
• Silicon epitaxial planar chip, metal silicon junction.
z
Applications
• Lead-free parts meet environmental standards of
MIL-STD-19500 /228
z Computers
• RoHS product for packing code suffix "G"
z Printers
Halogen free product for packing code suffix "H"
z
z
z
z
Package outline
5 Unidirectional Transil functions
SOD-123H
Low leakage current: < 1 μA
0.146(3.7)
0.130(3.3)
High integration
0.012(0.3) Typ.
Pb-Free package is available
RoHS product for packing code suffix ”G”
0.071(1.8)
Halogen free product for packing code suffix0.056(1.4)
“H”
Moisture Sensitivity Level 1
Complies with the following standards
Mechanical systems
data
Communication
IEC61000-4-2
Epoxy : phones
UL94-V0handsets
rated flameand
retardant
•Cellular
accessories
Level 4 15 kV (air discharge)
plastic, SOD-123H
• Case : Molded
0.031(0.8) Typ.
Wireline
and wireless
telephone sets
,
8 kV(contact discharge)
•Set
Terminals :Plated terminals, solderable per MIL-STD-750
top boxes
MIL STD 883E - Method 3015-7 Class 3
Method 2026
0.040(1.0)
0.024(0.6)
0.031(0.8) Typ.
25 kV HBM (Human Body
Model)
Dimensions
in inches and (millimeters)
• Polarity : Indicated by cathode band
• Mounting Position : Any
• Weight : Approximated 0.011 gram
FunctionalMAXIMUM
diagramRATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25℃ ambient temperature unless otherwise specified.
Single phase half wave, 60Hz, resistive of inductive load.
For capacitive load, derate current by 20%
RATINGS
SYMBOL FM120-MH FM130-MH FM140-MH FM150-MH FM160-MH FM180-MH FM1100-MH FM1150-MH FM1200-MH
Marking Code
Maximum Recurrent Peak Reverse Voltage
VRRM
12
20
13
30
Maximum RMS Voltage
VRMS
14
21
28
VDC
20
30
40
SOT-363
Maximum DC Blocking Voltage
Absolute Ratings (Tamb=25°C )
Maximum Average Forward Rectified Current
Symbol
15
50
16
60
10
100
115
150
120
200
35ESDA6V1W6
42
56
70
105
140
50
superimposed on rated load (JEDEC method)
100
150
200
= 8/20μs)
CJ
Storage Temperature
Range
TJ
Operating Temperature Range
Top
-55 to +125
Operating Temperature Range
Storage Temperature Range
80
1.0
Value
30 150
lead temperature
for soldering
during 10s
RΘJA
TypicalTJunction
Capacitance (Note 1)
stg
18
80
60
IO
Parameter
Peak Forward Surge Current 8.3 ms single half sine-wave
PPP
Peak PulseIFSM
Power(tp
Maximum
L
Typical T
Thermal
Resistance (Note
2)
14
40
40
120
-40
260
Units
°C
to +125
°C
-40 to +125
°C
-55 to +150
- 65 to +175
TSTG
W
Electrical Parameter
Symbol
CHARACTERISTICS
Maximum Forward Voltage at 1.0A DC
ParameterSYMBOL FM120-MH FM130-MH FM140-MH FM150-MH FM160-MH FM180-MH FM1100-MH FM1150-MH FM1200-MH
Maximum
Peak
MaximumIPP
Average Reverse
CurrentReverse
at @T A=25℃
Rated DCVBlocking
Voltage
Clamping
C
VF
Pulse Current
@T A=125℃
Voltage
@ IPP
IR
0.50
0.70
0.85
0.5
0.9
0.92
10
NOTES: VRWM
Working Peak Reverse Voltage
Maximum Reverse Leakage Current @
IR
2- Thermal Resistance
From Junction to Ambient
V
RWM
IT
Test Current
1- Measured at 1 MHZ and applied reverse voltage of 4.0 VDC.
VBR
IF
Forward Current
VF
Forward Voltage @ IF
2012-06
2012-09
Breakdown Voltage @ IT
WILLAS ELECTRONIC CORP
WILLAS ELECTRONIC CORP.
WILLAS
FM120-M+
(6'$9:
THRU
FM1200-M+
Transient
Voltage
Suppressors
for ESDRECTIFIERS
Protection-20V- 200V
1.0A SURFACE
MOUNT
SCHOTTKY BARRIER
Pb Free Produc
SOD-123+ PACKAGE
Package outline
Features
• Batch process design, excellent power dissipation offers
better reverse leakage current and thermal resistance.
SOD-123H
• Low profile surface mounted application in order to
Electrical
Characteristics
optimize
board space.
Low power loss, high efficiency.
Part•Numbers
VBR
• High current capability, low forward voltage drop.
IT
• High surge capability.
Min.
Typ
Max.
• Guardring for overvoltage protection.
• Ultra high-speedVswitching.
V
V
mA
• Silicon epitaxial planar chip, metal silicon junction.
ESDA6V1W6
6.7
7.2
meet environmental
standards of1
• Lead-free parts6.1
0.146(3.7)
0.130(3.3)
VF
C
0.012(0.3) Typ.
VRwM
IR
V
µA
V
mA
5
1
1.25
200
IF
Max.
Typ. 0v bias
0.071(1.8)
0.056(1.4)
pF
35
MIL-STD-19500 /228
1.Square
pulse
IPPfor
=15A,t
2.V
p=2.5µs
BR=aT*(Tamb-25°C)*VBR(25°C)
product
packing
code suffix
"G"
• RoHS
Halogen
free product for packing code suffix "H"
Typical
Characteristics
Mechanical data
0.040(1.0)
0.024(0.6)
• Epoxy : UL94-V0 rated flame retardant
• Case : Molded plastic, SOD-123H
,
• Terminals :Plated terminals, solderable per MIL-STD-750
0.031(0.8) Typ.
0.031(0.8) Typ.
Method 2026
• Polarity : Indicated by cathode band
• Mounting Position : Any
• Weight : Approximated 0.011 gram
Dimensions in inches and (millimeters)
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Ratings at 25℃ ambient temperature unless otherwise specified.
Single phase half wave, 60Hz, resistive of inductive load.
For capacitive load, derate current by 20%
SYMBOL FM120-MH FM130-MH FM140-MH FM150-MH FM160-MH FM180-MH FM1100-MH FM1150-MH FM1200-MH
Fig1.Peak pulseRATINGS
power versus exponential
Fig2. Clamping voltage versus peak
Marking Code
j
Maximum Recurrent Peak Reverse
Voltage
VRRM
12
20
13
30
Maximum RMS Voltage
VRMS
14
21
28
Maximum DC Blocking Voltage
VDC
20
30
40
Pulse duration (T initial=25°C)
Maximum Average Forward Rectified Current
Peak Forward Surge Current 8.3 ms single half sine-wave
superimposed on rated load (JEDEC method)
Storage Temperature Range
18
10
115
150
120
200
Waveform,
tp=2.5μs)
35
42
56
70
105
140
100
150
200
50
60
80
1.0
30
40
120
-55 to +125
TJ
Operating Temperature Range
16
IFSM
CJ
Typical Junction Capacitance (Note 1)
15
IO
RΘJA
Typical Thermal Resistance (Note 2)
14
pulse
40current
50 (Tj initial=25°C,
60
80 rectangular
100
-55 to +150
- 65 to +175
TSTG
CHARACTERISTICS
Maximum Average Reverse Current at @T A=25℃
Rated DC Blocking Voltage
SYMBOL FM120-MH FM130-MH FM140-MH FM150-MH FM160-MH FM180-MH FM1100-MH FM1150-MH FM1200-MH
VF
Maximum Forward Voltage at 1.0A DC
@T A=125℃
IR
0.50
0.70
0.85
0.5
0.9
0.92
10
NOTES:
1- Fig
Measured
at 1 MHZ and applied
reversereverse
voltage of 4.0
VDC.
3 Capacitance
Versus
applied
2- Thermal Resistance From Junction to Ambient
2012-09
2012-06
voltage Fig 4 Peak Forward Voltage Drop versus
forward current
WILLAS ELECTRONIC CORP
WILLAS ELECTRONIC CORP.
WILLAS
FM120-M+
(6'$9:
THRU
Transient
Voltage
Suppressors
for ESDRECTIFIERS
Protection-20V- 200V
FM1200-M+
1.0A SURFACE
MOUNT
SCHOTTKY BARRIER
Pb Free Produc
SOD-123+ PACKAGE
Package outline
Features
• Batch process design, excellent power dissipation offers
better reverse leakage current and thermal resistance.
SOT-363
Mechanical Data
• Low profile surface mounted application in order to
SOD-123H
.004(0.10)MIN.
optimize board space.
.054(1.35)
.045(1.15)
• Low power loss, high efficiency.
• High current capability, low forward voltage drop.
• High surge capability.
.087(2.20)
• Guardring for overvoltage protection.
.071(1.80)
• Ultra high-speed switching.
• Silicon epitaxial planar chip, metal silicon junction.
• Lead-free parts meet environmental standards of
0.146(3.7)
0.130(3.3)
0.012(0.3) Typ.
0.071(1.8)
0.056(1.4)
MIL-STD-19500 /228
..096(2.45)
.071(1.80)
• RoHS product for packing code suffix "G"
Halogen free product for packing code suffix "H"
Mechanical data
• Epoxy : UL94-V0 rated flame retardant
• Case : Molded plastic, SOD-123H
,
• Terminals :Plated terminals, solderable per MIL-STD-750
0.031(0.8) Typ.
Method 2026
.030(0.75)
0.040(1.0)
0.024(0.6)
0.031(0.8) Typ.
.010(0.25)
.003(0.08)
• Polarity : Indicated
by cathode band
.021(0.55)
• Mounting Position : Any
• Weight : Approximated 0.011 gram
Dimensions in inches and (millimeters)
.056(1.40)
MAXIMUM
RATINGS AND ELECTRICAL CHARACTERISTICS
.047(1.20)
Ratings at 25℃ ambient temperature unless otherwise specified.
Single phase half wave, 60Hz, resistive of inductive load.
For capacitive load, derate current by 20%
RATINGS
SYMBOL FM120-MH FM130-MH FM140-MH FM150-MH FM160-MH FM180-MH FM1100-MH FM1150-MH FM1200-MH
.004(0.10)MAX.
Marking Code
VRRM
12
20
13
30
14
40
15
50
16
60
18
80
10
100
115
150
120
200
Maximum RMS Voltage
VRMS
14
21
28
35
42
56
70
105
140
Maximum DC Blocking Voltage
VDC
20
30
40
50
60
80
100
150
200
.016(0.40) IO
Peak Forward Surge Current 8.3 ms single half
sine-wave
.004(0.10)
IFSM
.043(1.10)
.032(0.80)
Maximum Recurrent Peak Reverse Voltage
RΘJA
Maximum Average Forward Rectified Current
superimposed on rated load (JEDEC method)
Typical Thermal Resistance (Note 2)
Typical Junction Capacitance (Note 1)
CJ
Operating Temperature Range
TJ
Storage Temperature Range
1.0
30
40
120
-55 to +125
-55 to +150
- 65 to +175
TSTG
Dimensions inSYMBOL
inches
and (millimeters)
FM120-MH FM130-MH FM140-MH FM150-MH FM160-MH FM180-MH FM1100-MH FM1150-MH FM1200-MH
CHARACTERISTICS
VF
Maximum Forward Voltage at 1.0A DC
Maximum Average Reverse Current at @T A=25℃
Marking
Rated DC Blocking Voltage
0.50
0.85
0.5
IR
@T A=125℃
0.70
0.9
0.92
10
NOTES:
Type number
Marking code
1- Measured at 1 MHZ and applied reverse voltage of 4.0 VDC.
2- Thermal Resistance From Junction to Ambient
ESDA6V1W6
2012-06
2012-09
W6
WILLAS ELECTRONIC CORP
WILLAS ELECTRONIC CORP.
(6'$9:
Transient Voltage Suppressors for ESD Protection
Ordering Information: Device PN ESDA6V1W6 ‐T(1)G(2)‐WS Note: (1) Packing code, Tape & Reel Packing Tape&Reel: 3 Kpcs/Reel (2) RoHS product for packing code suffix ”G”;Halogen free product for packing code suffix “H” ***Disclaimer*** WILLAS reserves the right to make changes without notice to any product specification herein, to make corrections, modifications, enhancements or other changes. WILLAS or anyone on its behalf assumes no responsibility or liability for any errors or inaccuracies. Data sheet specifications and its information contained are intended to provide a product description only. "Typical" parameters which may be included on WILLAS data sheets and/ or specifications can and do vary in different applications and actual performance may vary over time. WILLAS does not assume any liability arising out of the application or use of any product or circuit. WILLAS products are not designed, intended or authorized for use in medical, life‐saving implant or other applications intended for life‐sustaining or other related applications where a failure or malfunction of component or circuitry may directly or indirectly cause injury or threaten a life without expressed written approval of WILLAS. Customers using or selling WILLAS components for use in such applications do so at their own risk and shall agree to fully indemnify WILLAS Inc and its subsidiaries harmless against all claims, damages and expenditures. 2012-09
WILLAS ELECTRONIC CORP.
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