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SG3525

型号:

SG3525

描述:

脉宽调制控制电路[ PULSE WIDTH MODULATOR CONTROL CIRCUITS ]

品牌:

MOTOROLA[ MOTOROLA ]

页数:

8 页

PDF大小:

209 K

下载PDF手册
Order this document by SG3525A/D  
PULSE WIDTH MODULATOR  
CONTROL CIRCUITS  
The SG3525A, SG3527A pulse width modulator control circuits offer  
improved performance and lower external parts count when implemented for  
controlling all types of switching power supplies. The on–chip +5.1 V  
reference is trimmed to ±1% and the error amplifier has an input  
common–mode voltage range that includes the reference voltage, thus  
eliminating the need for external divider resistors. A sync input to the  
oscillator enables multiple units to be slaved or a single unit to be  
synchronized to an external system clock. A wide range of deadtime can be  
SEMICONDUCTOR  
TECHNICAL DATA  
programmed by a single resistor connected between the C and Discharge  
T
pins. These devices also feature built–in soft–start circuitry, requiring only an  
external timing capacitor. A shutdown pin controls both the soft–start circuitry  
and the output stages, providing instantaneous turn off through the PWM  
latch with pulsed shutdown, as well as soft–start recycle with longer  
shutdown commands. The under voltage lockout inhibits the outputs and the  
N SUFFIX  
PLASTIC PACKAGE  
16  
CASE 648  
1
changing of the soft–start capacitor when V  
is below nominal. The output  
CC  
stages are totem–pole design capable of sinking and sourcing in excess of  
200 mA. The output stage of the SG3525A features NOR logic resulting in a  
low output for an off–state while the SG3527A utilized OR logic which gives a  
high output when off.  
DW SUFFIX  
8.0 V to 35 V Operation  
PLASTIC PACKAGE  
CASE 751B  
(SO–16L)  
16  
5.1 V ± 1.0% Trimmed Reference  
100 Hz to 400 kHz Oscillator Range  
Separate Oscillator Sync Pin  
1
Adjustable Deadtime Control  
Input Undervoltage Lockout  
PIN CONNECTIONS  
Latching PWM to Prevent Multiple Pulses  
Pulse–by–Pulse Shutdown  
Dual Source/Sink Outputs: ±400 mA Peak  
Inv. Input  
Noninv. Input  
Sync  
V
1
2
3
4
5
6
7
8
16  
15  
14  
13  
12  
11  
10  
9
ref  
V
CC  
Output B  
OSC. Output  
V
C
Representative Block Diagram  
C
T
Ground  
16  
15  
12  
VC  
13  
V
To Internal  
Circuitry  
ref  
R
T
Output A  
Reference  
Regulator  
Under–  
Voltage  
Lockout  
V
CC  
Output A  
11  
Discharge  
Soft–Start  
Shutdown  
Compensation  
Ground  
NOR  
NOR  
4
OSC Output  
3
6
Q
Sync  
RT  
F/F  
(Top View)  
Oscillator  
Q
14  
5
Output B  
CT  
7
Discharge  
R
Latch  
S
SG3525A Output Stage  
+
9
1
S
13  
– PWM  
Compensation  
INV. Input  
VC  
ORDERING INFORMATION  
Error  
Amp  
Output A  
11  
50µA  
2
8
Noninv. Input  
+
V
REF  
OR  
Operating  
Temperature Range  
C
Device  
Package  
Soft–Start  
Output B  
14  
10  
5.0k  
5.0k  
SG3525AN  
SG3525ADW  
SG3527AN  
Plastic DIP  
SO–16L  
Shutdown  
OR  
T
= 0° to +70°C  
A
SG3527A  
Output Stage  
Plastic DIP  
Motorola, Inc. 1996  
Rev 2  
SG3525A SG3527A  
MAXIMUM RATINGS (Note 1)  
Rating  
Symbol  
Value  
+40  
Unit  
Vdc  
Vdc  
V
Supply Voltage  
V
CC  
Collector Supply Voltage  
Logic Inputs  
V
C
+40  
–0.3 to +5.5  
Analog Inputs  
–0.3 to V  
±500  
50  
V
CC  
Output Current, Source or Sink  
Reference Output Current  
Oscillator Charging Current  
Power Dissipation (Plastic & Ceramic Package)  
I
mA  
mA  
mA  
mW  
O
I
ref  
5.0  
P
D
T
= +25°C (Note 2)  
= +25°C (Note 3)  
1000  
2000  
A
T
C
Thermal Resistance Junction–to–Air  
Thermal Resistance Junction–to–Case  
Operating Junction Temperature  
R
R
100  
60  
°C/W  
°C/W  
°C  
θJA  
θJC  
T
+150  
J
Storage Temperature Range  
T
–55 to +125  
+300  
°C  
stg  
Lead Temperature (Soldering, 10 seconds)  
NOTES: 1. Values beyond which damage may occur.  
T
°C  
Solder  
2. Derate at 10 mW/°C for ambient temperatures above +50°C.  
3. Derate at 16 mW/°C for case temperatures above +25°C.  
RECOMMENDED OPERATING CONDITIONS  
Characteristics  
Symbol  
Min  
8.0  
4.5  
Max  
35  
Unit  
Vdc  
Vdc  
mA  
Supply Voltage  
V
CC  
Collector Supply Voltage  
V
C
35  
Output Sink/Source Current  
(Steady State)  
(Peak)  
I
O
0
0
±100  
±400  
Reference Load Current  
I
0
0.1  
2.0  
0.001  
0
20  
mA  
kHz  
kΩ  
µF  
ref  
Oscillator Frequency Range  
Oscillator Timing Resistor  
f
400  
150  
0.2  
osc  
R
C
T
T
D
Oscillator Timing Capacitor  
Deadtime Resistor Range  
Operating Ambient Temperature Range  
R
500  
+70  
T
0
°C  
A
APPLICATION INFORMATION  
Shutdown Options (See Block diagram, front page)  
Since both the compensation and soft–start terminals  
(Pins 9 and 8) have current source pull–ups, either can  
readily accept a pull–down signal which only has to sink a  
maximum of 100 µA to turn off the outputs. This is subject to  
the added requirement of discharging whatever external  
capacitance may be attached to these pins.  
An alternate approach is the use of the shutdown circuitry  
of Pin 10 which has been improved to enhance the available  
shutdown options. Activating this circuit by applying a  
positive signal on Pin 10 performs two functions: the PWM  
latch is immediately set providing the fastest turn–off signal to  
the outputs; and a 150 µA current sink begins to discharge  
the external soft–start capacitor. If the shutdown command is  
short, the PWM signal is terminated without significant  
discharge of the soft–start capacitor, thus, allowing, for  
example, a convenient implementation of pulse–by–pulse  
current limiting. Holding Pin 10 high for a longer duration,  
however, will ultimately discharge this external capacitor,  
recycling slow turn–on upon release.  
Pin 10 should not be left floating as noise pickup could  
conceivably interrupt normal operation.  
2
MOTOROLA ANALOG IC DEVICE DATA  
SG3525A SG3527A  
ELECTRICAL CHARACTERISTICS (V  
CC  
= +20 Vdc, T = T  
to T  
[Note 4], unless otherwise noted.)  
high  
A
low  
Characteristics  
Symbol  
Min  
Typ  
Max  
Unit  
REFERENCE SECTION  
Reference Output Voltage (T = +25°C)  
V
5.00  
5.10  
10  
20  
20  
5.20  
20  
Vdc  
mV  
mV  
mV  
Vdc  
J
ref  
Line Regulation (+8.0 V V  
+35 V)  
Reg  
line  
CC  
Load Regulation (0 mA I 20 mA)  
Reg  
50  
L
load  
Temperature Stability  
V /T  
ref  
Total Output Variation  
Includes Line and Load Regulation over Temperature  
V  
ref  
4.95  
5.25  
Short Circuit Current  
I
80  
100  
mA  
SC  
(V = 0 V, T = +25°C)  
ref  
J
Output Noise Voltage (10 Hz f 10 kHz, T = +25°C)  
V
40  
20  
200  
50  
µV  
rms  
J
n
Long Term Stability (T = +125°C) (Note 5)  
S
mV/khr  
J
OSCILLATOR SECTION (Note 6, unless otherwise noted.)  
Initial Accuracy (T = +25°C)  
±2.0  
±1.0  
±6.0  
±2.0  
%
%
J
Frequency Stability with Voltage  
f  
osc  
(+8.0 V V  
+35 V)  
D
CC  
VCC  
Frequency Stability with Temperature  
±0.3  
%
f  
D
osc  
T
Minimum Frequency (R = 150 k, C = 0.2 µF)  
f
min  
50  
Hz  
kHz  
mA  
V
T
T
Maximum Frequency (R = 2.0 k, C = 1.0 nF)  
f
max  
400  
1.7  
3.0  
0.3  
1.2  
T
T
Current Mirror (I  
= 2.0 mA)  
2.0  
3.5  
0.5  
2.0  
1.0  
2.2  
RT  
Clock Amplitude  
Clock Width (T = +25°C)  
1.0  
2.8  
2.5  
µs  
J
Sync Threshold  
V
Sync Input Current (Sync Voltage = +3.5 V)  
mA  
ERROR AMPLIFIER SECTION (V  
= +5.1 V)  
CM  
Input Offset Voltage  
V
2.0  
1.0  
10  
10  
1.0  
mV  
µA  
µA  
dB  
V
IO  
Input Bias Current  
Input Offset Current  
I
IB  
I
IO  
DC Open Loop Gain (R 10 M)  
A
VOL  
60  
75  
0.2  
5.6  
75  
60  
L
Low Level Output Voltage  
High Level Output Voltage  
V
OL  
0.5  
V
OH  
3.8  
60  
50  
V
Common Mode Rejection Ratio (+1.5 V V  
+5.2 V)  
CMRR  
PSRR  
dB  
dB  
CM  
Power Supply Rejection Ratio (+8.0 V V  
+35 V)  
CC  
PWM COMPARATOR SECTION  
Minimum Duty Cycle  
DC  
45  
0.6  
0
%
%
V
min  
Maximum Duty Cycle  
DC  
49  
max  
Input Threshold, Zero Duty Cycle (Note 6)  
V
V
0.9  
3.3  
0.05  
th  
th  
Input Threshold, Maximum Duty Cycle (Note 6)  
Input Bias Current  
3.6  
1.0  
V
I
IB  
µA  
NOTES: 4. T  
low  
= 0° for SG3525A, 3527A  
T
= +70°C for SG3525A, 3527A  
high  
5. Since long term stability cannot be measured on each device before shipment, this specification is an engineering estimate of average stability  
from lot to lot.  
6. Tested at f  
= 40 kHz (R = 3.6 k, C = 0.01 µF, R = 0).  
osc  
T T D  
3
MOTOROLA ANALOG IC DEVICE DATA  
SG3525A SG3527A  
ELECTRICAL CHARACTERISTICS (Continued)  
Characteristics  
Symbol  
Min  
Typ  
Max  
Unit  
SOFT–START SECTION  
Soft–Start Current (V  
= 0 V)  
25  
50  
0.4  
0.4  
80  
0.6  
1.0  
µA  
V
shutdown  
shutdown  
Soft–Start Voltage (V  
= 2.0 V)  
= 2.5 V)  
Shutdown Input Current (V  
mA  
shutdown  
OUTPUT DRIVERS (Each Output, V  
= +20 V)  
CC  
Output Low Level  
V
V
V
OL  
(I  
sink  
(I  
sink  
= 20 mA)  
= 100 mA)  
0.2  
1.0  
0.4  
2.0  
Output High Level  
V
OH  
(I  
(I  
= 20 mA)  
= 100 mA)  
18  
17  
19  
18  
source  
source  
Under Voltage Lockout (V8 and V9 = High)  
Collector Leakage, V = +35 V (Note 7)  
V
6.0  
7.0  
8.0  
200  
600  
300  
0.5  
20  
V
µA  
ns  
UL  
I
C
C(leak)  
Rise Time (C = 1.0 nF, T = 25°C)  
t
r
100  
50  
L
J
Fall Time (C = 1.0 nF, T = 25°C)  
t
f
ns  
L
J
Shutdown Delay (V  
= +3.0 V, C = 0, T = +25°C)  
t
ds  
0.2  
14  
µs  
mA  
DS  
S
J
Supply Current (V  
= +35 V)  
I
CC  
CC  
NOTE: 7. Applies to SG3525A only, due to polarity of output pulses.  
Lab Test Fixture  
V
ref  
16  
4
15  
13  
V
Reference Regulator  
CC  
0.1  
0.1  
0.1  
Clock  
Sync  
RT  
Flip/  
Flop  
V
C
3.0k  
3
O
s
c
i
l
l
a
t
o
r
Out A  
PWM  
ADJ.  
11  
A
B
1.0k  
1.5k  
6
Deadtime  
1.0k, 1.0W  
(2)  
7
5
0.009  
0.1  
Ramp  
100  
14  
0.001  
Out B  
Comp  
9
10k  
12  
8
Gnd  
PWM  
1 = V  
IO  
0.01  
2 = 1(+)  
3 = 1(–)  
1
50µA  
Softstart  
1
+
2
2
5.0µF  
1
2
+
5.0k  
3
E/A  
3
10  
5.0k  
V
ref  
V/I Meter  
1
2
1
2.0k  
2
+
3
3
DUT  
Shutdown  
4
MOTOROLA ANALOG IC DEVICE DATA  
SG3525A SG3527A  
Figure 1. Oscillator Charge Time versus R  
Figure 2. Oscillator Discharge Time versus R  
T
D
200  
500  
400  
100  
50  
300  
200  
100  
0
* R = 0  
D
20  
10  
5.0  
2.0  
5
7
6
R
D
*
R
T
C
T
2.0 5.0 10  
20 50  
100 200 500 1000 2000 5000 10,000  
CHARGE TIME ( s)  
0.2  
0.5  
1.0  
2.0  
5.0  
10  
20  
s)  
50  
100 200  
µ
DISCHARGE TIME (  
µ
Figure 3. Error Amplifier Open Loop  
Frequency Response  
Figure 4. Output Saturation  
Characteristics (SG3525A)  
9
1
2
+
V
CC  
J
= +20 V  
= +25°C  
4.0  
3.5  
3.0  
2.5  
2.0  
1.5  
1.0  
0.5  
0
C
P
T
100  
80  
R
Z
60  
40  
R
= 20 k  
Z
Source Sat, (V –V  
)
C
OH  
20  
0
Sink Sat, (V  
)
OL  
–20  
1.0  
10  
100  
1.0 k  
10 k  
100 k  
1.0 M  
10 M  
0.01  
0.02 0.03  
0.05 0.07 0.1  
0.2 0.3  
0.5 0.7 1.0  
f, FREQUENCY (Hz)  
I
OUTPUT SOURCE OR SINK CURRENT (A)  
O,  
Figure 5. Oscillator Schematic (SG3525A)  
Figure 6. Error Amplifier Schematic (SG3525A)  
V
15  
V
ref  
16  
CC  
Q1  
Q5  
Q6  
Q8  
7.4k  
Q3  
R
C
Q3  
T
6
5
Q9  
2.0k 14k  
Q11  
Q10  
T
Q4  
Ramp  
To PWM  
Inverting  
Q1  
Q2  
Input  
1
3
2.0k  
25k  
Blanking  
To Output  
Sync  
To PWM  
Noninverting  
5.0pF  
Comparator  
7
Q14  
Input  
2
Discharge  
400µA  
Q4  
5.8V  
9
200  
µA  
100µA  
30  
Compensation  
Q2  
23k  
Q13  
3.0k  
Q12  
Q7  
1.0k  
250  
1.0k  
12  
4
Gnd  
OSC Output  
5
MOTOROLA ANALOG IC DEVICE DATA  
SG3525A SG3527A  
Figure 7. SG3525A Output Circuit  
(1/2 Circuit Shown)  
13  
V
CC  
V
C
Q7  
Q8  
Q5  
Q9  
Q10  
5.0k  
Q4  
11, 14  
Output  
V
ref  
Q11  
2.0k  
Q6  
Q1  
Q2  
Q3  
Q6 Omitted  
in SG3527A  
5.0k  
Clock  
10k  
10k  
PWM  
F/F  
Figure 8. Single–Ended Supply  
Figure 9. Push–Pull Configuration  
Q1  
+V  
supply  
V
To Output Filter  
+
supply  
R1  
13  
R1  
C1  
R2  
13  
11  
14  
T1  
V
C
A
Q1  
Q2  
R2  
C2  
V
11  
14  
C
SG3525A  
A
B
SG3525A  
B
Gnd  
R3  
Gnd  
12  
12  
For single–ended supplies, the driver outputs are grounded.  
In conventional push–pull bipolar designs, forward base drive is  
controlled by R1–R3. Rapid turn–off times for the power  
devices are achieved with speed–up capacitors C1 and C2.  
The V terminal is switched to ground by the totem–pole  
C
source transistors on alternate oscillator cycles.  
Figure 11. Driving Transformers in a  
Half–Bridge Configuration  
Figure 10. Driving Power FETS  
V
+V  
+
supply  
supply  
R1  
13  
Q1  
C1  
C2  
T1  
Q1  
Q2  
T1  
13  
T2  
11  
14  
R1  
11  
14  
V
A
C
V
A
C
SG3525A  
Q2  
SG3525A  
B
Gnd  
B
Gnd  
12  
R2  
12  
The low source impedance of the output drivers provides  
rapid charging of power FET input capacitance while  
minimizing external components.  
Low power transformers can be driven directly by the SG3525A.  
Automatic reset occurs during deadtime, when both ends of the  
primary winding are switched to ground.  
6
MOTOROLA ANALOG IC DEVICE DATA  
SG3525A SG3527A  
OUTLINE DIMENSIONS  
N SUFFIX  
PLASTIC PACKAGE  
CASE 648–08  
ISSUE R  
NOTES:  
–A–  
1. DIMENSIONING AND TOLERANCING PER ANSI  
Y14.5M, 1982.  
2. CONTROLLING DIMENSION: INCH.  
3. DIMENSION L TO CENTER OF LEADS WHEN  
FORMED PARALLEL.  
4. DIMENSION B DOES NOT INCLUDE MOLD FLASH.  
5. ROUNDED CORNERS OPTIONAL.  
16  
1
9
8
B
S
INCHES  
MILLIMETERS  
DIM  
A
B
C
D
F
MIN  
MAX  
0.770  
0.270  
0.175  
0.021  
0.70  
MIN  
18.80  
6.35  
3.69  
0.39  
1.02  
MAX  
19.55  
6.85  
4.44  
0.53  
1.77  
F
0.740  
0.250  
0.145  
0.015  
0.040  
C
L
SEATING  
–T–  
G
H
J
K
L
0.100 BSC  
0.050 BSC  
2.54 BSC  
1.27 BSC  
PLANE  
K
M
0.008  
0.015  
0.130  
0.305  
10  
0.21  
0.38  
3.30  
7.74  
10  
H
J
0.110  
0.295  
0
2.80  
7.50  
0
G
D 16 PL  
M
S
0.020  
0.040  
0.51  
1.01  
M
M
0.25 (0.010)  
T A  
DW SUFFIX  
PLASTIC PACKAGE  
CASE 751B–05  
(SO–16L)  
ISSUE J  
–A–  
NOTES:  
1. DIMENSIONING AND TOLERANCING PER  
ANSI Y14.5M, 1982.  
16  
1
9
2. CONTROLLING DIMENSION: MILLIMETER.  
3. DIMENSIONS A AND B DO NOT INCLUDE  
MOLD PROTRUSION.  
4. MAXIMUM MOLD PROTRUSION 0.15 (0.006)  
PER SIDE.  
5. DIMENSION D DOES NOT INCLUDE DAMBAR  
PROTRUSION. ALLOWABLE DAMBAR  
PROTRUSION SHALL BE 0.127 (0.005) TOTAL  
IN EXCESS OF THE D DIMENSION AT  
MAXIMUM MATERIAL CONDITION.  
–B–  
P 8 PL  
M
S
0.25 (0.010)  
B
8
G
MILLIMETERS  
INCHES  
DIM  
A
B
C
D
MIN  
9.80  
3.80  
1.35  
0.35  
0.40  
MAX  
10.00  
4.00  
1.75  
0.49  
1.25  
MIN  
MAX  
0.393  
0.157  
0.068  
0.019  
0.049  
F
0.386  
0.150  
0.054  
0.014  
0.016  
R X 45  
K
C
F
G
J
K
M
P
R
1.27 BSC  
0.050 BSC  
–T–  
SEATING  
PLANE  
0.19  
0.10  
0
0.25  
0.25  
7
0.008  
0.004  
0
0.009  
0.009  
7
J
M
D
16 PL  
5.80  
0.25  
6.20  
0.50  
0.229  
0.010  
0.244  
0.019  
M
S
S
0.25 (0.010)  
T
B
A
7
MOTOROLA ANALOG IC DEVICE DATA  
SG3525A SG3527A  
Motorola reserves the right to make changes without further notice to any products herein. Motorola makes no warranty, representation or guarantee regarding  
the suitability of its products for any particular purpose, nor does Motorola assume any liability arising out of the application or use of any product or circuit, and  
specificallydisclaims any and all liability, including without limitation consequential or incidental damages. “Typical” parameters which may be provided in Motorola  
datasheetsand/orspecificationscananddovaryindifferentapplicationsandactualperformancemayvaryovertime. Alloperatingparameters,includingTypicals”  
must be validated for each customer application by customer’s technical experts. Motorola does not convey any license under its patent rights nor the rights of  
others. Motorola products are not designed, intended, or authorized for use as components in systems intended for surgical implant into the body, or other  
applicationsintended to support or sustain life, or for any other application in which the failure of the Motorola product could create a situation where personal injury  
ordeathmayoccur. ShouldBuyerpurchaseoruseMotorolaproductsforanysuchunintendedorunauthorizedapplication,BuyershallindemnifyandholdMotorola  
and its officers, employees, subsidiaries, affiliates, and distributors harmless against all claims, costs, damages, and expenses, and reasonable attorney fees  
arisingoutof,directlyorindirectly,anyclaimofpersonalinjuryordeathassociatedwithsuchunintendedorunauthorizeduse,evenifsuchclaimallegesthatMotorola  
was negligent regarding the design or manufacture of the part. Motorola and  
Opportunity/Affirmative Action Employer.  
re registered trademarks of Motorola, Inc. Motorola, Inc. is an Equal  
How to reach us:  
USA/EUROPE/Locations Not Listed: Motorola Literature Distribution;  
P.O. Box 20912; Phoenix, Arizona 85036. 1–800–441–2447 or 602–303–5454  
JAPAN: Nippon Motorola Ltd.; Tatsumi–SPD–JLDC, 6F Seibu–Butsuryu–Center,  
3–14–2 Tatsumi Koto–Ku, Tokyo 135, Japan. 03–81–3521–8315  
MFAX: RMFAX0@email.sps.mot.com – TOUCHTONE 602–244–6609  
INTERNET: http://Design–NET.com  
ASIA/PACIFIC: Motorola Semiconductors H.K. Ltd.; 8B Tai Ping Industrial Park,  
51 Ting Kok Road, Tai Po, N.T., Hong Kong. 852–26629298  
SG3525A/D  
厂商 型号 描述 页数 下载

RFSOLUTIONS

 		SG3 7 + 7频段图形均衡器(立体声)[ 7+7 Band Graphic Equalizer (Stereo) ] 2 页

VISHAY

 		SG30.33OHM+/-5%+/-150PPMTR1500 [ Fixed Resistor, Wire Wound, 3W, 0.33ohm, 100V, 5% +/-Tol, -150,150ppm/Cel, ] 3 页

VISHAY

 		SG30.51OHM+/-5%+/-150PPMTR1500 [ Fixed Resistor, Wire Wound, 3W, 0.51ohm, 100V, 5% +/-Tol, -150,150ppm/Cel, ] 3 页

VISHAY

 		SG30.56OHM+/-5%+/-150PPMTR1500 [ Fixed Resistor, Wire Wound, 3W, 0.56ohm, 100V, 5% +/-Tol, -150,150ppm/Cel, ] 3 页

VISHAY

 		SG30.91OHM+/-5%+/-150PPMTR1500 [ Fixed Resistor, Wire Wound, 3W, 0.91ohm, 100V, 5% +/-Tol, -150,150ppm/Cel, ] 3 页

LITTELFUSE

 		SG300 [ Gas Discharge Tube (GDT) Products ] 4 页

TOSHIBA

 		SG3000EXH24 [ Silicon Controlled Rectifier, GATE TURN-OFF SCR, 13-108D1A, 4 PIN ] 3 页

TOSHIBA

 		SG3000GXH23 [ Silicon Controlled Rectifier, 1200 A, 4500 V, GATE TURN-OFF SCR, 13-108D1A, 4 PIN ] 3 页

TOSHIBA

 		SG3000GXH23G [ Silicon Controlled Rectifier, 1200 A, 4500 V, GATE TURN-OFF SCR, 13-120M1A, 4 PIN ] 2 页

ETC

 		SG3000GXH24 晶闸管GTO[ GTO Thyristor ] 4 页

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