STK760-213A-E [ONSEMI]
单相整流有源转换器;
| 型号: | STK760-213A-E |
| 厂家: | 
ONSEMI |
| 描述: | 单相整流有源转换器 局域网 转换器 |
| 文件: | 总11页 (文件大小:100K) |
| 中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
Ordering number : ENA1790A
STK760-213A-E
Thick-Film Hybrid IC
Single-phase rectification
Active Converter Hybrid IC
http://onsemi.com
Overview
This IC is average current control type Active Converter Hybrid IC for power factor improvement of single-phase AC
power supply, that containing power devices of step-up active converter, control IC over-current and over-voltage
protection circuits.
Applications
• Single-phase rectification active filter for power rectification for air conditioners and general-purpose inverters.
Features
• Power switching device for active converter is adopting IGBT.
• Soft start functions and the over current, the over voltage, and the low-voltage are including as protection circuit
• Capable of controlling ON/OFF by logic level input signal.
• Output voltage changeability functions by control signal.
Semiconductor Components Industries, LLC, 2013
July, 2013
O2412HKPC 018-10-0057 No.A1790-1/11
STK760-213A-E
Specifications
Absolute Maximum Ratings at Ta = 25°C
Parameter
Symbol
Conditions
Ratings
unit
V
IGBT
Collector-emitter voltage
Repetitive peak collector current
Collector current
VCE
ICP
IC
600
300
105
156
600
110
36
(TR1+TR2)
*1
A
A
Power dissipation
PC1
VRM
IF1P
IF1
W
V
FRD1
(D1)
Diode reverse voltage
Repetitive peak forward current
Diode forward current
Power dissipation
*1
*1
A
A
PD1
IF2P
IF2
75
W
A
FRD2
(D2)
Repetitive peak forward current
Diode forward current
Power dissipation
15
7
A
PD2
13
W
V
Supply voltage (V -GND)
CC
V
20
CC
Signal pin input voltage
Pin 4
Pin 5
Pin 8
Pin 9
Pin 2
Pin 6
VIS
-10 to 0.3
VCOMP
VFB
-0.3 to 6.5
V
VOVP
VONF
Vctl
-0.3 to V
CC
Maximum input AC voltage
Maximum output voltage
Maximum output power
Input AC current (normal condition)
Junction temperature
VAC
Single-phase Full-rectified
264
450
V
V
V
Under the Application condition
(VAC=200V)
O
Wo
6
kW
I
30
Arms
°C
IN
Tj
150
Operating case temperature
Storage temperature
Tc
HIC case temperature
*2
-20 to +100
-40 to +125
1.17
°C
Tstg
°C
Tightening torque
A screw part
*3
*4
N•m
VRMS
Withstand voltage
VINS
50Hz sine wave AC 1minute
2000
[Note]
*1: Duty ratio D = 0.1, tp = 1ms
*2: Measure point is between 5mm to center of back.
*3: Torque should be set within 0.79 to 1.17N⋅m. Flatness of the heat-sink should be lower than 0.2mm.
*4: The test condition: AC2500V, 1 second.
Stresses exceeding Maximum Ratings may damage the device. Maximum Ratings are stress ratings only. Functional operation above the Recommended Operating
Conditions is not implied. Extended exposure to stresses above the Recommended Operating Conditions may affect device reliability.
No.A1790-2/11
STK760-213A-E
Electrical Characteristics at Tc = 25°C, V
= 15.0V: Unless otherwise noted
CC
Ratings
typ
Parameter
Symbol
Conditions
Test circuit
unit
min
max
Power output part
Collector-emitter leak current
(IGBT)
I
V
= 600V
CES
CE
Fig.1
Fig.2
200
μA
Collector-emitter saturation voltage
(IGBT)
V
(sat)
I
C
= 40A
CE
1.2
1.8
V
Diode reverse current (FRD1)
I
V
= 600V
R
Fig.1
Fig.3
Fig.3
200
2.8
3.5
μA
V
R
Diode forward voltage (FRD1)
Diode forward voltage (FRD2)
Junction to case thermal resistance
V 1
F
I
= 40A
= 5A
2.2
2.5
F
V 2
F
I
V
F
θj-c1
θj-c2
θj-c3
IGBT (TR1+TR2)
FRD1 (D1)
0.80
1.65
9.0
°C/W
°C/W
°C/W
FRD2 (D2)
Control IC part
Control IC input current
I
I
f
(ON)
V
V
V
= 15V, VONF = 5V
14
2.5
20
5
CC
CC
CC
CC
mA
(OFF)
= 15V, VONF = 0V
= 15V, VONF = 5V
CC
Fig.4
Fig.5
Oscillation frequency
19.5
22.0
24.5
kHz
OSC
Open loop protection
threshold voltage
VOLP
0.8
0.95
5.0
1.1
V
V
Error-amp reference voltage
Vref
4.88
5.12
Peak current protection
threshold voltage
VIS(PK)
-0.58
-0.5
5.3
-0.42
5.51
V
V
Over voltage protection
threshold voltage
VOVP(ON)
Fig.6
Fig.7
5.095
3.0
ON/OFF threshold voltage
VTHON
V
= 15V
V
V
V
V
CC
VTHOFF
0.5
14.1
10.7
Start-up V
CC
voltage
voltage
V
V
(ON)
VONF = 5V
12.4
9.4
13.25
10.0
CC
Fig.8
Fig.3
Shut-down V
(OFF)
CC
CC
Substrate temperature monitor
resistance
RTH
Resistance between VTH-GND
90
100
110
kΩ
Application circuit : VAC = 200V, V = 380V (Vctl = 1.507V)
O
Output voltage
Power Factor
V
Wo = 2kW
Wo = 400W
Wo = 2kW
366
0.98
0.99
380
0.99
394
1.0
V
O
cosφ
Fig.9
0.995
No.A1790-3/11
STK760-213A-E
Package Dimensions
unit:mm (typ)
70.0
6.0
R2.3
1
22
0.75
2.54
10.5
3.5
21 2.54=53.34
2.0
58.0
78.0(HIC Part)
IGBT (TR1+TR2), FRD1 (D1) & FRD2 (D2) vs. Temperature Derating (Ta = 25°C)
Pd -- Tc
180
160
140
IGBT
120
100
80
FRD1
60
40
20
0
FRD2
0
20
40
60
80
100
120
Case temperature, Tc -- °C
No.A1790-4/11
STK760-213A-E
Block Diagram
(D1)
C
K
IGBT
V
FRD1
CC
FRD2
(D2)
(TR1) (TR2)
IGBT
driver
E
Input peak current
protection
Drive circuit
VIS
OVP/Enable
detector
VOVP
Enable mode
RC averaging
Discharge Vcomp S Q
R
Output voltage
detector
VFB
V
UVLO Block
Biss & internal reference
CC
VCAO
Vm
VCOMP
Σ
Max Duty
Vcomp start
Cycle
Vctl
Enable
Comparator
Vref
V
control
O
buffer
Integrated
Ramp Oscillator
Discharge
V
M
0
Voltage
VONF
Error Amp
VTH
VH1
VthBOP
BOP Comparator
GND
Explanation of Terminal
Terminal No.
Symbol
Explanation
1
V
Control IC power supply input
ON/OFF control terminal
Signal GND
CC
2
VONF
3
4
GND
VIS
Current detection terminal
5
VCOMP
Phase compensation terminal (Voltage error amplifier out)
Output voltage control signal input
Output voltage control amplifier output
Output voltage feed back terminal
Over voltage protection terminal
Terminal of thermistor TH1
An empty terminal
6
Vctl
7
VCAO
8
VFB
9
VOVP
10
VTH
11, 12
13, 14
15, 16
17, 18
19, 20
21, 22
-
E
-
IGBT (TR1+TR2) Emitter
An empty terminal
C
-
IGBT (TR1+TR2) Collector
An empty terminal
K
FRD1 (D1) Cathode
No.A1790-5/11
STK760-213A-E
Test Circuit -1
(1) I
, I
CES R
A
A
IGBT
FRD1
A
B
17, 18
13, 14
21, 22
17, 18
V
, VR
CE
3
13,14
B
〈Fig.1〉
(2) V (sat) (Test by Pulse)
CE
V
CC
=15V
100μF
1
VONF
VOVP
2
17,18
V
(sat) ON
OFF
CE
V
(sat)
0V
CE
VFB
E
9
6
8
V
2.0V
I
C
13,14
4.8V
6.0V
V
T
7
3
〈Fig.2〉
(3) V 1, V 2 (Test by Pulse), RTH
F
F
A
FRD1
FRD2
A
B
17, 18
21, 22
13, 14
17, 18
10
V
I
F
R
3
B
〈Fig.3〉
No.A1790-6/11
STK760-213A-E
Test Circuit -2
(4) I (ON)/I (OFF), VOLP, f
CC CC
OSC
V
=15V
CC
I
, f
CC OSC
VOLP
I
A
1
CC
VFB = 1.1V
VONF = 5.0V
I
(OFF)
I
(ON)
CC
CC
R =1kΩ
L
100μF
VONF
2
17,18
f
OSC
VOVP
5.0V
VFB
E
8
9
6
13,14
7
3
〈Fig.4〉
(5) Vref, VIS(PK)
V
CC
=15V
Vref
VIS(PK)
VIS = -0.6V
VFB = 4.8V
R =1kΩ
L
100μF
1
VIS
2
17,18
VONF
V
C
VOVP
5.0V
VFB
E
9
6
8
2.0V
13,14
7
3
〈Fig.5〉
(6) VOVP(ON)
V
CC
=15V
R =1kΩ
L
100μF
1
VONF
VOVP
2
17,18
V
C
VFB
E
9
6
8
2.0V
13,14
4.8V
7
3
〈Fig.6〉
No.A1790-7/11
STK760-213A-E
Test Circuit -3
(7) VTHON, VTHOFF
V
=15V
CC
R =1kΩ
L
100μF
1
VONF
2
17,18
V
C
VOVP
5.0V
VFB
E
9
6
8
13,14
4.8V
7
3
〈Fig.7〉
(8) V (ON), V (OFF)
CC CC
V
CC
V
(ON)
V
(OFF)
CC
CC
R =1kΩ
100μF
1
L
Vc-ON
Vc-OFF
VONF
2
17,18
V
C
VOVP
5.0V
VFB
E
9
6
8
2.0V
13,14
4.8V
7
3
〈Fig.8〉
(9) Power Factor (COSφ)
Condition :
VAC=200V
=380V
Load1=400W
Load2=2kW
VAC
DB1
1
2
3
4
5
6
7
8
9
10 13 14
17 18
21 22
W
L1
V
O
680kΩ 680kΩ
0.5mH/20A
Ci
R4 R5
470kΩ 470kΩ
V
O
2.2μF
/630V
W
R2 R3
V
CC
=15V
C1
C3
C4
C5
C6
ON/OF
Vctl
2.2μF
/630V
470μF
/450V×2
C2
R1
Rs
7mΩ/7W
GND
ON : (2)Pin=5V to V
OFF : (2)Pin=0V(GND)
CC
0V
〈Fig.9〉
No.A1790-8/11
STK760-213A-E
Application Circuit
SW
VAC
DB1
1
2
3
4
5
6
7
9
10
13 14
17 18
21 22
L1
Ri
680kΩ 680kΩ
0.5mH/30A
Ci
R4 R5
470kΩ 470kΩ
V
O
3.3μF
/630V
R2 R3
V
CC
=15V
C1
C3
C4
Cs
Co
ON/OF
Vctl
2.2μF
/630V
470μF
/450V×4
C2
R1
Rs
GND
ON : (2)Pin=5V to V
OFF : (2)Pin=0V(GND)
CC
0V
7mΩ/7W
Recommended Condition
Parameter
AC Voltage
Symbol
VAC
Conditions
Ratings
170 to 264
VAC×√2+(10 to 15)≤450
+(10 to 20)
unit
Vrms
V
50/60Hz
Output voltage
V
O
Over-voltage detection voltage
Control IC supply voltage
Inductor
VOV
V
V
OUT
V
V
-GND
14.5 to 17.0
0.5
V
CC
CC
L1
Ci
mH
μF
μF
μF
Input film capacitor
Output film capacitor
Output electrolytic capacitor
3.3≤Ci
Cs
Co
2.2≤Cs
1880≤Co
Output Voltage Control
Output voltage control signal Vctl sets referring to the Vctl-V characteristic of the figure below.
O
Vctl -- V
O
420
400
380
360
340
320
300
280
260
240
1
1.2
1.4
1.6
1.8
2.0
2.2
2.4
2.6
2.8
Output voltage control signal input, Vctl -- V
No.A1790-9/11
STK760-213A-E
Timing Chart
Even if power supply and signal at any timing are input, this IC is not destroyed.
However, soft start circuit doesn't operate when V (DC) is input at the timing of Figure 11 and 12.
IN
Therefore, overcurrent protection circuit will operate, and audio frequency noise from coil may generate.
Please turn on ON/OFF or V
after V (DC) to avoid this.
IN
CC
Input Timing 1
Input Timing 2
V
V
(DC)
IN
0V
0V
0V
0V
0V
CC
ON/OFF
0V
ON
ON
Voltage
OFF
OFF
control signal
〈Fig.11〉
〈Fig.12〉
The built-in thermistor resistance temperature characteristic
RTH -- Tc
10000
7
5
3
2
1000
7
5
3
2
100
7
5
3
2
10
7
5
3
2
0
--50
--25
0
25
50
75
100
125
150
Case temperature, Tc -- °C
No.A1790-10/11
STK760-213A-E
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application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation special, consequential or incidental
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performance may vary over time. All operating parameters, including “Typicals” must be validated for each customer application by customer’s technical
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PS No.A1790-11/11
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