Anpec APL3516 Power-distribution switch Datasheet

APL3516
Power-Distribution Switches
Features
General Description
•
40mΩ (3.3V Input) High Side MOSFET
•
Current-Limit and Short Circuit Protections
The APL3516A/B/C/D series are 40mΩ (3.3V input) high
side load switches with an EN logic input and an OCB
•
Over-Temperature Protection
•
Under-Voltage Lockout Protection
•
Reverse Current Blocking when Disabled
•
Deglitched Fault Indication Output
•
Internal Soft-Start Control
•
Output Discharge when Disabled
•
Logic Level Enable Input
•
UL Approved-File No. E328191
•
fault indication output.
The protection features include current-limit protection,
short circuit protection, and over-temperature protection.
The device limits the output current at current-limit threshold level. When VOUT drops below 1.5V, the devices limit
the current to a lower and safe level. The OTP limits the
junction temperature below 140oC in case of short circuit
or over load conditions.
Pin Configuration
Nemko IEC 60950-1:2005 (2nd Edition) and EN
60950-1:2006 CB_Scheme Certified, No.62494
•
TUV IEC 60950-1:2005 + A1:2009 and EN 60950-1:
APL3516A/C
2006 + A11:2009 + A1:2010 Certified, No.44 780 11
GND 1
VIN 2
8 VOUT
Lead Free and Green Devices Available
VIN 3
(RoHS Compliant)
EN 4
6 VOUT
5 OCB
393869
•
Applications
7 VOUT
SOP-8
Top View
•
Display Ports
•
Notebook and Desktop Computers
•
High-Side Power Protection Switches
•
Short-Circuit Protections
•
Heavy Capacitive Loads Protections
APL3516B/D
GND 1
8 VOUT
VIN 2
7 VOUT
VIN 3
6 VOUT
5 OCB
ENB 4
SOP-8
Top View
Simplified Application Circuit
Load
2.9~3.7V
VIN
VOUT
APL3516
A/B/C/D
OCB
Controller
EN/ENB
GND
ANPEC reserves the right to make changes to improve reliability or manufacturability without notice, and
advise customers to obtain the latest version of relevant information to verify before placing orders.
Copyright  ANPEC Electronics Corp.
Rev. A.6 - Jun., 2011
1
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APL3516
Ordering and Marking Information
Package Code
K : SOP-8
Operating Ambient Temperature Range
I : -40 to 85 oC
Handling Code
TR : Tape & Reel
EN Function
A/C : Active High
B/D : Active Low
Assembly Material
G : Halogen and Lead Free Device
APL3516
Assembly Material
Handling Code
Temperature Range
Package Code
EN Function
APL3516A K:
APL3516A
XXXXX
XXXXX - Date Code
APL3516B K:
APL3516B
XXXXX
XXXXX - Date Code
APL3516C K:
APL3516C
XXXXX
XXXXX - Date Code
APL3516D K:
APL3516D
XXXXX
XXXXX - Date Code
Note : ANPEC lead-free products contain molding compounds/die attach materials and 100% matte tin plate termination finish; which
are fully compliant with RoHS. ANPEC lead-free products meet or exceed the lead-free requirements of IPC/JEDEC J-STD-020D for
MSL classification at lead-free peak reflow temperature. ANPEC defines “Green” to mean lead-free (RoHS compliant)and halogen
free (Br or Cl does not exceed 900ppm by weight in homogeneous material and total of Br and Cl does not exceed 1500ppm by
weight).
Absolute Maximum Ratings
Symbol
VIN
VOUT
VENB, VEN
VOCB
TJ
TSTG
TSDR
(Note 1)
Rating
Unit
VIN to GND Voltage
Parameter
-0.3 ~ 4
V
VOUT to GND Voltage
-0.3 ~ 4
V
EN, ENB to GND Voltage
-0.3 ~ 4
V
OCB to GND Voltage
-0.3 ~ 4
V
Maximum Junction Temperature
-40 ~ 150
o
Storage Temperature
-65 ~ 150
o
260
o
Maximum Lead Soldering Temperature, 10 Seconds
C
C
C
Note 1 : Absolute Maximum Ratings are those values beyond which the life of a device may be impaired. Exposure to absolute
maximum rating conditions for extended periods may affect device reliability.
Thermal Characteristics
Symbol
θJA
Parameter
Junction-to-Ambient Resistance in Free Air
Typical Value
(Note 2)
SOP-8
Unit
o
160
C/W
Note 2 : θJA is measured with the component mounted on a high effective thermal conductivity test board in free air.
Copyright  ANPEC Electronics Corp.
Rev. A.6 - Jun., 2011
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APL3516
Recommended Operating Conditions
Symbol
Parameter
Range
Unit
2.9 ~ 3.7
V
VIN
VIN Input Voltage
IOUT
OUT Output Current
0 ~ 0.9
TA
Ambient Temperature
-40 ~ 85
o
C
-40 ~ 125
o
C
TJ
Junction Temperature
A
Electrical Characteristics
Unless otherwise specified, these specifications apply over VIN=3.3V, VEN =3.3V or VENB=0V and TA=-40 ~ 85 oC. Typical values are
at TA=25oC.
Symbol
Parameter
APL3516
Test Conditions
Unit
Min.
Typ.
Max.
No load, VEN=0V or VENB=3.3V
-
0.5
1
No load, VEN=3.3V or VENB=0V
-
70
150
Leakage Current
VOUT=GND, VEN=0V or VENB=3.3V
-
-
1
Reverse Leakage Current
VIN=GND, VOUT=3.3V, VEN=0V or VENB=3.3V
-
-
1
SUPPLY CURRENT
VIN Supply Current
µA
POWER SWITCH
RDS(ON)
VIN=3.3V, IOUT=0.5A, TA= 25 oC
-
40
47
VIN=3.3V, IOUT=0.5A, TA= -40 ~ 85 oC
-
46
54
2.3
-
2.6
-
0.2
-
APL3516A/B
0.95
-
1.7
APL3516C/D
1.1
-
1.7
VIN=2.9V to 3.7V, TA= -40 ~ 85 C
-
0.6
-
OCB Output Low Voltage
IOCB=5mA
-
0.2
0.4
V
OCB Leakage Current
VOCB=3.3V
-
-
1
µA
OCB assertion, TA= -40 ~ 85 C
5
12
20
ms
Power Switch On Resistance
mΩ
UNDER-VOLTAGE LOCKOUT
VIN UVLO Threshold Voltage
VIN rising, TA= -40 ~ 85 oC
VIN UVLO Hysteresis
V
CURRENT-LIMIT AND SHORT CIRCUIT PROTECTIONS
ILIM
ISHORT
Current-Limit Threshold
Short Circuit Output Current
VIN=2.9V to 3.7V,
TA= -40 ~ 85 oC
o
A
OCB OUTPUT PIN
tD(OCB)
OCB Deglitch Time
o
EN OR ENB INPUT PIN
VIH
Input Logic HIGH
VIN=2.9V to 3.7V
2
-
-
V
VIL
Input Logic LOW
VIN=2.9V to 3.7V
-
-
0.8
V
-
-
1
µA
-
150
-
Ω
-
30
-
µs
-
30
-
µs
-
1000
-
µs
Input Current
VOUT Discharge Resistance
tD(ON)
Turn on Delay Time
tD(OFF)
Turn off Delay Time
tSS
Soft-Start Time
Copyright  ANPEC Electronics Corp.
Rev. A.6 - Jun., 2011
VEN=0V or VENB=3.3V
No load, COUT=1µF, VIN=3.3V
3
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APL3516
Electrical Characteristics (Cont.)
Unless otherwise specified, these specifications apply over VIN=3.3V, VEN =3.3V or VENB=0V and TA=-40 ~ 85 oC. Typical values are
at TA=25oC.
Symbol
Parameter
APL3516
Test Conditions
Unit
Min.
Typ.
Max.
-
140
-
°C
-
20
-
°C
OVER-TEMPERATURE PROTECTION (OTP)
TOTP
Over-Temperature Threshold
TJ rising
Over-Temperature Hysteresis
Copyright  ANPEC Electronics Corp.
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APL3516
Typical Operating Characteristics
Supply Current vs. Input Voltage
Supply Current vs. Junction Temperature
100
80
RLOAD = Open,
CIN =COUT =1µF/X7R, TA=25oC
80
Supply Current (µA)
Supply Current, ICC (µA)
75
VIN=3.3V, RLOAD =Open,
CIN =COUT =1µF/X7R
70
65
60
55
60
40
20
50
45
2.5
0
-50
4.1
150
1200
VIN=3.3V
VIN=3.3V, Output Short to GND,
Shut Down mode
CIN =COUT =1µF/X7R
10
5
0
-50
0
50
100
Junction Temperature (oC)
1000
800
600
400
200
0
-50
150
0
50
100
Junction Temperature ( oC)
150
Over Current Protection
Characteristics
Switch Off Supply Current vs.
Junction Temperature
20
4.0
VIN=3.3V, RLOAD = Open,
CIN =COUT =1µF/X7R
VIN=3.3V, TA =25oC
3.5
15
Output Voltage (V)
Switch Off Supply Current (µA)
0
50
100
Junction Temperature ( oC)
Turn-On Rising Time vs. Junction
Temperature
Turn-On Rising Time (µs)
Output Leakage Current (µA)
3.3
3.7
Input Voltage (V)
Output Leakage Current vs.
Junction Temperature
20
15
2.9
10
5
3.0
2.5
2.0
1.5
1.0
0.5
0
-50
0
50
100
Junction Temperature (oC)
Copyright  ANPEC Electronics Corp.
Rev. A.6 - Jun., 2011
0
150
5
0
0.2
0.4
0.6
0.8
Output Current (A)
1.0
1.2
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APL3516
Typical Operating Characteristics (Cont.)
70
Static Drain-Source Resistance vs.
Junction Temperature
Static Drain-Source On-State Resistance,
RDS(ON) (mΩ)
Static Drain-Source On-State Resistance,
RDS(ON) (mΩ)
Static Drain-Source Resistance vs.
Input Voltage
IOUT =1A
65
60
TJ =125oC
55
50
45
TJ
=25oC
40
35
30
TJ =-40oC
25
20
2.5
2.9
3.3
4.1
3.7
VIN =3.3V, IOUT =1A
65
60
55
50
45
40
35
30
25
20
-50
0
50
100
150
Input Voltage (V)
Junction Temperature ( oC)
UVLO Threshold Voltage vs.
Junction Temperature
EN Pin Threshold Voltage vs. Input
Voltage
1.8
EN Pin Threshold Voltage (V)
3.2
UVLO Threshold Voltage (V)
70
2.8
UVLO Rising Threshold
2.4
2.0
UVLO Falling Threshold
1.6
1.2
0
50
100
Junction Temperature ( oC)
1.4
1.2
1.0
EN Falling Threshold
0.8
0.6
0.4
0.2
IOUT =10mA, CIN = COUT =1µF/X7R
0.8
-50
EN Rising Threshold
1.6
0
2.5
150
Current Limit Threshold vs. Input
Voltage
RLOAD =50Ω, CIN = COUT =1µF/X7R
2.9
3.3
3.7
Input Voltage (V)
4.1
Current Limit Threshold vs. Junction
Temperature
1.5
2
Current Limit Threshold, IILM (A)
Current Limit Threshold, ILIM (A)
TA=25oC
1.5
1
0.5
0
2.5
2.9
3.3
3.7
Input Voltage (V)
Copyright  ANPEC Electronics Corp.
Rev. A.6 - Jun., 2011
1.4
1.3
1.2
1.1
1.0
-50
4.1
6
0
50
100
Junction Temperature ( oC)
150
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APL3516
Operating Waveforms
The test condition is VIN=3.3V, TA= 25oC unless otherwise specified.
Turn On Response
Turn Off Response
VE N
VE N
1
1
VOUT
V OUT
2
2
VIN =3.3V, RLOAD =27Ω, TA=25oC
CH1: VEN, 5V/Div, DC
CH2: VOUT, 1V/Div, DC
TIME: 20µs/Div
VIN =3.3V, R LOAD =27Ω, TA=25oC
CH1: VEN, 5V/Div, DC
CH2: VOUT, 1V/Div, DC
TIME: 200µs/Div
Device Enabled into Short
Ramped Load on Enabled Device
V OCB
VE N
1
1
IOUT
IIN
2
2
VIN =3.3V, CIN =COUT =1µF/X7R, TA=25oC
CH1: VOCB, 5V/Div, DC
CH2: IOUT, 0.5A/Div, DC
TIME:5ms/Div
VIN =3.3V, Output Short to GND bebore Device
Enabled, TA=25oC
CH1: VEN, 5V/Div, DC
CH2: IIN, 0.5A/Div, DC
TIME:200µs/Div
Copyright  ANPEC Electronics Corp.
Rev. A.6 - Jun., 2011
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APL3516
Operating Waveforms (Cont.)
The test condition is VIN=3.3V, TA= 25oC unless otherwise specified.
2.5Ω Load Connected to an Enabled
Device
Harnessed Inrush Current
VEN
V OUT
1
COUT=220µF
1
COUT=120µF
IOUT
I IN
2
2
C OUT=47µF
VIN =3.3V, RLOAD =10Ω, CIN =1µF/X7R,
VIN =3.3V, RLOAD =2.5Ω, CIN=COUT=1µF/X7R,
TA=25oC
CH1: VOUT, 1V/Div, DC
CH2: IOUT, 1A/Div, DC
TIME: 10µs/Div
COUT =47/120/220µF, TA=25oC
CH1: VEN, 5V/Div, DC
CH2: IIN, 0.5A/Div, DC
TIME: 0.5ms/Div
1Ω Load Connected to an Enabled Device
VOUT
1
IOUT
2
VIN =3.3V, RLOAD =1Ω, CIN =COUT=1µF/X7R,
TA=25oC
CH1: VOUT, 1V/Div, DC
CH2: IOUT, 1A/Div, DC
TIME: 10µs/Div
Copyright  ANPEC Electronics Corp.
Rev. A.6 - Jun., 2011
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APL3516
Pin Description
PIN
FUNCTION
NO.
NAME
1
GND
Ground.
2, 3
VIN
Power Supply Input. Connect this pin to external DC supply.
4
EN
Enable Input. Pull this pin to high to enable the device and pull this pin to low to disable device.
(APL3516A/C) The EN pin cannot be left floating.
ENB
Enable Input. Pull this pin to high to disable the device and pull this pin to low to enable device.
(APL3516B/D) The ENB pin cannot be left floating.
5
OCB
Fault Indication Pin. This pin goes low when a current limit or an over-temperature condition is
detected after a 8ms deglitch time.
6, 7, 8
VOUT
Output Voltage Pin. The output voltage follows the input voltage. When ENB is high or EN is low,
the output voltage is discharged by an internal resistor.
Block Diagram
VIN
VOUT
UVLO
Charge
Pump
Current
Limit
OCB
Gate Driver and
Control Logic
EN/ENB
GND
OTP
Copyright  ANPEC Electronics Corp.
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APL3516
Typical Application Circuit
2.9~3.7V
CIN
50kΩ
1µF
VIN
VOUT
APL3516A/B/C/D
CBYP
COUT
0.1µF
10µF
Load
OCB
Controller
EN/ENB
GND
Copyright  ANPEC Electronics Corp.
Rev. A.6 - Jun., 2011
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APL3516
Function Description
VIN Under-Voltage Lockout (UVLO)
Enable/Disable
The APL3516A/B/C/D series of power switches are builtin an under-voltage lockout circuit to keep the output shut-
Pull the ENB above 2V or EN below 0.8V to disable the
device, and pull ENB pin below 0.8V or EN above 2V to
enable the device. When the IC is disabled, the supply
ting off until internal circuitry is operating properly. The
UVLO circuit has hysteresis and a de-glitch feature so
current is reduced to less than 1µA. The enable input is
compatible with both TTL and CMOS logic levels. The
that it will typically ignore undershoot transients on the
input. When input voltage exceeds the UVLO threshold,
EN/ENB pins cannot be left floating.
the output voltage starts a soft-start to reduce the inrush
current.
Over-Temperature Protection
When the junction temperature exceeds 140oC, the inter-
Power Switch
nal thermal sense circuit turns off the power FET and
allows the device to cool down. When the device’s junc-
The power switch is an N-channel MOSFET with a low
RDS(ON). The internal power MOSFET does not have the
tion temperature cools by 20 oC, the internal thermal
sense circuit will enable the device, resulting in a pulsed
body diode. When IC is off, the MOSFET prevents a current flowing from the VOUT back to VIN and VIN to VOUT.
output during continuous thermal protection. Thermal
protection is designed to protect the IC in the event of
Current-Limit Protection
over temperature conditions. For normal operation, the
junction temperature cannot exceed TJ=+125oC.
The APL3516A/B/C/D series of power switches provide
the current-limit protection function. During current-limit,
the devices limit output current at current limit threshold.
For reliable operation, the device should not be operated
in current limit for extended period.
Short-Circuit Protection
When the output voltage drops below 1.5V, which is
caused by the over load or short circuit, the devices limit
the output current down to a safe level. The short circuit
current limit is used to reduce the power dissipation during short circuit condition. If the junction temperature is
over the thermal shutdown temperature, the device will
enter the thermal shutdown.
OCB Output
The APL3516A/B/C/D series of power switches provide
an open-drain output to indicate that a fault has occurred.
When any of current-limit or over-temperature protection
occurs for a deglitch time of tD(OCB), the OCB goes low.
Since the OCB pin is an open-drain output, connecting a
resistor to a pull high voltage is necessary.
Copyright  ANPEC Electronics Corp.
Rev. A.6 - Jun., 2011
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APL3516
Application Information
Input Capacitor
A 1µF ceramic bypass capacitor from VIN to GND, located
near the APL3516, is strongly recommended to suppress
the ringing during short circuit fault event. Without the
bypass capacitor, the output short may cause sufficient
ringing on the input (from supply lead inductance) to damage internal control circuitry.
Output Capacitor
A low-ESR 150µF aluminum electrolytic or tantalum between VOUT and GND is strongly recommended to reduce the voltage droop during hot-attachment of downstream peripheral. Higher-value output capacitor is better
when the output load is heavy. Additionally, bypassing the
output with a 0.1µF ceramic capacitor improves the immunity of the device to short-circuit transients.
Layout Consideration
The PCB layout should be carefully performed to maximize thermal dissipation and to minimize voltage drop,
droop and EMI. The following guidelines must be
considered:
1. Please place the input capacitors near the VIN pin as
close as possible.
2. Output decoupling capacitors for load must be placed
near the load as close as possible for decoupling highfrequency ripples.
3. Locate APL3516 and output capacitors near the load to
reduce parasitic resistance and inductance for excellent
load transient performance.
4. The negative pins of the input and output capacitors
and the GND pin must be connected to the ground plane
of the load.
5. Keep VIN and VOUT traces as wide and short as possible.
Copyright  ANPEC Electronics Corp.
Rev. A.6 - Jun., 2011
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APL3516
Package Information
SOP-8
-T-
SEATING PLANE < 4 mils
D
E
E1
SEE VIEW A
h X 45
°
c
A
0.25
b
GAUGE PLANE
SEATING PLANE
A1
A2
e
L
VIEW A
S
Y
M
B
O
L
SOP-8
INCHES
MILLIMETERS
MIN.
MAX.
A
MIN.
MAX.
1.75
0.069
0.010
0.004
0.25
A1
0.10
A2
1.25
b
0.31
0.51
0.012
0.020
c
0.17
0.25
0.007
0.010
D
4.80
5.00
0.189
0.197
E
5.80
6.20
0.228
0.244
E1
3.80
4.00
0.150
0.157
e
0.049
1.27 BSC
0.050 BSC
h
0.25
0.50
0.010
0.020
L
0.40
1.27
0.016
0.050
0
0°
8°
0°
8°
Note: 1. Follow JEDEC MS-012 AA.
2. Dimension “D” does not include mold flash, protrusions or gate burrs.
Mold flash, protrusion or gate burrs shall not exceed 6 mil per side.
3. Dimension “E” does not include inter-lead flash or protrusions.
Inter-lead flash and protrusions shall not exceed 10 mil per side.
Copyright  ANPEC Electronics Corp.
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APL3516
Carrier Tape & Reel Dimensions
P0
P2
P1
A
B0
W
F
E1
OD0
K0
A0
A
OD1 B
B
T
SECTION A-A
SECTION B-B
H
A
d
T1
Application
SOP-8
A
H
T1
C
d
D
W
E1
F
330.0±2.00
50 MIN.
12.4+2.00
-0.00
13.0+0.50
-0.20
1.5 MIN.
20.2 MIN.
12.0±0.30
1.75±0.10
5.5±0.05
P0
P1
P2
D0
D1
T
A0
B0
K0
2.0±0.05
1.5+0.10
-0.00
1.5 MIN.
0.6+0.00
-0.40
6.40±0.20
5.20±0.20
2.10±0.20
4.0±0.10
8.0±0.10
(mm)
Devices Per Unit
Package Type
SOP-8
Copyright  ANPEC Electronics Corp.
Rev. A.6 - Jun., 2011
Unit
Tape & Reel
Quantity
2500
14
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APL3516
Taping Direction Information
SOP-8
USER DIRECTION OF FEED
Classification Profile
Copyright  ANPEC Electronics Corp.
Rev. A.6 - Jun., 2011
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APL3516
Classification Reflow Profiles
Profile Feature
Sn-Pb Eutectic Assembly
Pb-Free Assembly
100 °C
150 °C
60-120 seconds
150 °C
200 °C
60-120 seconds
3 °C/second max.
3°C/second max.
183 °C
60-150 seconds
217 °C
60-150 seconds
See Classification Temp in table 1
See Classification Temp in table 2
Time (tP)** within 5°C of the specified
classification temperature (Tc)
20** seconds
30** seconds
Average ramp-down rate (Tp to Tsmax)
6 °C/second max.
6 °C/second max.
6 minutes max.
8 minutes max.
Preheat & Soak
Temperature min (Tsmin)
Temperature max (Tsmax)
Time (Tsmin to Tsmax) (ts)
Average ramp-up rate
(Tsmax to TP)
Liquidous temperature (TL)
Time at liquidous (tL)
Peak package body Temperature
(Tp)*
Time 25°C to peak temperature
* Tolerance for peak profile Temperature (Tp) is defined as a supplier minimum and a user maximum.
** Tolerance for time at peak profile temperature (tp) is defined as a supplier minimum and a user maximum.
Table 1. SnPb Eutectic Process – Classification Temperatures (Tc)
Package
Thickness
<2.5 mm
≥2.5 mm
Volume mm
<350
235 °C
220 °C
3
Volume mm
≥350
220 °C
220 °C
3
Table 2. Pb-free Process – Classification Temperatures (Tc)
Package
Thickness
<1.6 mm
1.6 mm – 2.5 mm
≥2.5 mm
Volume mm
<350
260 °C
260 °C
250 °C
3
Volume mm
350-2000
260 °C
250 °C
245 °C
3
Volume mm
>2000
260 °C
245 °C
245 °C
3
Reliability Test Program
Test item
SOLDERABILITY
HOLT
PCT
TCT
HBM
MM
Latch-Up
Method
JESD-22, B102
JESD-22, A108
JESD-22, A102
JESD-22, A104
MIL-STD-883-3015.7
JESD-22, A115
JESD 78
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16
Description
5 Sec, 245°C
1000 Hrs, Bias @ Tj=125°C
168 Hrs, 100%RH, 2atm, 121°C
500 Cycles, -65°C~150°C
VHBM≧2KV
VMM≧200V
10ms, 1tr≧100mA
www.anpec.com.tw
APL3516
Customer Service
Anpec Electronics Corp.
Head Office :
No.6, Dusing 1st Road, SBIP,
Hsin-Chu, Taiwan, R.O.C.
Tel : 886-3-5642000
Fax : 886-3-5642050
Taipei Branch :
2F, No. 11, Lane 218, Sec 2 Jhongsing Rd.,
Sindian City, Taipei County 23146, Taiwan
Tel : 886-2-2910-3838
Fax : 886-2-2917-3838
Copyright  ANPEC Electronics Corp.
Rev. A.6 - Jun., 2011
17
www.anpec.com.tw
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