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부품번호 HCPL3140 기능
기능 0.4 Amp Output Current IGBT Gate Drive Optocoupler
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HCPL3140 데이터시트, 핀배열, 회로
Agilent HCPL-3140/HCPL-0314
0.4 Amp Output Current IGBT
Gate Drive Optocoupler
Data Sheet
Functional Diagram
N/C 1
ANODE 2
8 VCC
7 N.C.
CATHODE 3
6 VO
N/C 4
SHIELD
5 VEE
HCPL-3140/HCPL-0314
Truth Table
LED VO
OFF LOW
ON HIGH
Description
The HCPL-3140/HCPL-0314
familyofdevicesconsistsofaGaAsPLED
optically coupled to an integrated
circuit with a power output stage.
These optocouplers are ideally
suited for driving power IGBTs and
MOSFETs used in motor control
inverter applications. The high
operating voltage range of the
output stage provides the drive
voltages required by gate
controlled devices. The voltage
and current supplied by this
optocoupler makes it ideally
suited for directly driving small
or medium power IGBTs. For
IGBTs with higher ratings, the
HCPL-3150 (0.5 A) or
HCPL-3120 (2.0 A) optocouplers
can be used.
Features
• 0.4 A minimum peak output
current
• High speed response:
0.7 µs maximum propagation delay
over temperature range
• Ultra high CMR:
minimum 10 kV/µs at VCM = 1 kV
• Bootstrappable supply current:
maximum 3 mA
• Wide operating temperature
range: –40°C to 100°C
• Wide VCC operating range:
10 V to 30 V over temp. range
• Available in DIP8 and SO8
package
• Safety approvals: UL approval
pending, 2500 Vrms for 1 minute.
CSA approval pending. VDE
approval pending VIORM = 630 Vpeak
(HCPL-3140)
Applications
Isolated IGBT/Power MOSFET
gate drive
AC and brushless DC motor drives
Inverters for home appliances
Industrial inverters
Switch Mode Power Supplies
(SMPS)
A 0.1 µF bypass capacitor must be connected between pins VCC and VEE.
CAUTION: It is advised that normal static precautions be taken in handling and assembly of this component to prevent damage
and/or degradation which may be induced by ESD.




HCPL3140 pdf, 반도체, 판매, 대치품
Solder Reflow Temperature Profile
Regulatory Information
300
200
100
ROOM
TEMPERATURE
0
0
PREHEATING RATE 3°C + 1°C/–0.5°C/SEC.
REFLOW HEATING RATE 2.5°C ± 0.5°C/SEC.
PEAK
TEMP.
245°C
160°C
150°C
140°C
2.5°C ± 0.5°C/SEC.
3°C + 1°C/–0.5°C
30
SEC.
30
SEC.
PEAK
TEMP.
240°C
PEAK
TEMP.
230°C
SOLDERING
TIME
200°C
PREHEATING TIME
150°C, 90 + 30 SEC.
50 100
50 SEC.
TIGHT
TYPICAL
LOOSE
150 200 250
The HCPL-3140/HCPL-0314 are
pending approval by the
following organizations:
VDE
Approval under VDE 0884/06.92
with VIORM = 630 Vpeak
(HCPL-3140) and 566 Vpeak for
HCPL-0314.
UL
Approval under UL 1577,
component recognition program
up to VISO = 2500 Vrms expected
prior to product release. File
E55361.
TIME (SECONDS)
CSA
Approval under CSA Component
Acceptance Notice #5, File CA
88324 expected prior to product
release.
VDE 0884 Insulation Characteristics (HCPL-3140 Option 060)
Description
Symbol
Characteristic
Unit
Installation classification per DIN VDE 0110/1.89, Table 1
for rated mains voltage 150 Vrms
for rated mains voltage 300 Vrms
for rated mains voltage 600 Vrms
Climatic Classification
I - IV
I - III
I-II
55/100/21
Pollution Degree (DIN VDE 0110/1.89)
2
Maximum Working Insulation Voltage
VIORM
630 Vpeak
Input to Output Test Voltage, Method b*
VIORM x 1.875=VPR, 100% Production Test with
tm=1 sec, Partial discharge < 5 pC
VPR
1181
Vpeak
Input to Output Test Voltage, Method a*
VIORM x 1.5=VPR, Type and Sample Test, tm=60 sec,
Partial discharge < 5 pC
VPR 945 Vpeak
Highest Allowable Overvoltage
(Transient Overvoltage tini = 10 sec)
Safety-limiting values - maximum values allowed in the
event of a failure.
Case Temperature
Input Current**
Output Power**
Insulation Resistance at TS, VIO = 500 V
VIOTM
TS
IS,INPUT
PS, OUTPUT
RS
6000
175
230
600
>109
Vpeak
°C
mA
mW
* Refer to the optocoupler section of the Isolation and Control Components Designer’s Catalog, under Product Safety Regulations section, (VDE
0884) for a detailed description of Method a and Method b partial discharge test profiles.
** Refer to the following figure for dependence of PS and IS on ambient temperature.
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HCPL3140 전자부품, 판매, 대치품
Switching Specifications (AC)
Over recommended operating conditions unless otherwise specified.
Parameter
Propagation Delay Time to
High Output Level
Propagation Delay Time to
Low Output Level
Propagation Delay
Difference Between Any
Two Parts or Channels
Rise Time
Fall Time
Output High Level Common
Mode Transient Immunity
Output Low Level Common
Mode Transient Immunity
Symbol
tPLH
Min.
0.1
tPHL 0.1
PDD -0.5
Typ.
0.2
0.3
tR
tF
|CMH|
|CML|
10
10
50
50
Max.
0.7
0.7
0.5
Units
µs
µs
µs
ns
ns
kV/µs
kV/µs
Test
Conditions
Rg = 47 ,
Cg = 3 nF,
f = 10 kHz,
Duty Cycle =
50%,
IF = 8 mA,
VCC = 30 V
Fig.
10,11,
12,13,
14,17
TA = 25°C,
VCM = 1 kV
18
18
Note
14
10
11
12
Package Characteristics
Parameter
Test
Symbol Min. Typ. Max. Units Conditions Fig. Note
Input-Output Momentary
Withstand Voltage
VISO
2500
Vrms TA=25°C,
RH<50% for
8,9
Input-Output Resistance
RI-O
1012
VI-O=500 V
9
Input-Output Capacitance CI-O
0.6 pF Freq=1 MHz
Notes:
1. Derate linearly above 70°C free air temperature at a rate of 0.3 mA/°C.
2. Maximum pulse width = 10 µs, maximum duty cycle = 0.2%. This value is intended to allow for component tolerances for designs with IO peak
minimum = 0.4 A. See Application section for additional details on limiting IOL peak.
3. Derate linearly above 85°C, free air temperature at the rate of 4.0 mW/°C.
4. Input power dissipation does not require derating.
5. Maximum pulse width = 50 µs, maximum duty cycle = 0.5%.
6. In this test, VOH is measured with a DC load current. When driving capacitive load VOH will approach VCC as IOH approaches zero amps.
7. Maximum pulse width = 1 ms, maximum duty cycle = 20%.
8. In accordance with UL 1577, each optocoupler is proof tested by applying an insulation test voltage 3000 Vrms for 1 second (leakage detection
current limit II-O 5 µA). This test is performed before 100% production test for partial discharge (method B) shown in the VDE 0884 Insulation
Characteristics Table, if applicable.
9. Device considered a two-terminal device: pins on input side shorted together and pins on output side shorted together.
10. PDD is the difference between tPHL and tPLH between any two parts or channels under the same test conditions.
11. Common mode transient immunity in the high state is the maximum tolerable |dVcm/dt| of the common mode pulse VCM to assure that the output
will remain in the high state (i.e. Vo > 6.0 V).
12. Common mode transient immunity in a low state is the maximum tolerable |dVCM/dt| of the common mode pulse, VCM, to assure that the output
will remain in a low state (i.e. Vo < 1.0 V).
13. This load condition approximates the gate load of a 1200 V/25 A IGBT.
14. The power supply current increases when operating frequency and Qg of the driven IGBT increases.
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