FSAM10SH60A Fairchild Semiconductor, FSAM10SH60A Datasheet - Page 2
FSAM10SH60A
Manufacturer Part Number
FSAM10SH60A
Description
SMART POWER MODULE 10A SPM32-AA
Manufacturer
Fairchild Semiconductor
Series
SPM™r
Type
IGBTr
Datasheet
1.FSAM10SH60A.pdf
(16 pages)
Specifications of FSAM10SH60A
Configuration
3 Phase
Current
10A
Voltage
600V
Voltage - Isolation
2500Vrms
Package / Case
SPM32AA
Collector- Emitter Voltage Vceo Max
600 V
Collector-emitter Saturation Voltage
2.5 V
Continuous Collector Current At 25 C
10 A
Power Dissipation
43 W
Mounting Style
SMD/SMT
Transistor Polarity
N Channel
Dc Collector Current
10A
Collector Emitter Voltage Vces
2.5V
Power Dissipation Pd
43W
Collector Emitter Voltage V(br)ceo
600V
Operating Temperature Range
-20°C To +125°C
Rohs Compliant
Yes
Input Voltage
253V
Output Current
20A
Supply Voltage Range
13.5V To 16.5V
No. Of Pins
32
Filter Terminals
Through Hole
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Other names
FSAM10SH60A_NL
FSAM10SH60A_NL
FSAM10SH60A_NL
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
FSAM10SH60A
Manufacturer:
Fairchild Semiconductor
Quantity:
135
Company:
Part Number:
FSAM10SH60A
Manufacturer:
FAIRCHILD
Quantity:
334
©2003 Fairchild Semiconductor Corporation
Integrated Power Functions
• 600V-10A IGBT inverter for 3-phase DC/AC power conversion (Please refer to Fig. 3)
Integrated Drive, Protection and System Control Functions
• For inverter high-side IGBTs: Gate drive circuit, High voltage isolated high-speed level shifting
• For inverter low-side IGBTs: Gate drive circuit, Short-circuit (SC) protection
• Temperature Monitoring: System over-temperature monitoring using built-in thermistor
• Fault signaling: Corresponding to a SC fault (Low-side IGBTs) or a UV fault (Low-side control supply circuit)
• Input interface: 5V CMOS/LSTTL compatible, Schmitt trigger input
Pin Configuration
Note) Available temperature monitoring circuit is given in Fig. 15.
(1) V
(1) V
(1) V
(2) com
(2) com
(2) com
(3) IN
(3) IN
(3) IN
(4) IN
(4) IN
(4) IN
(5) IN
(5) IN
(5) IN
(6) com
(6) com
(6) com
(7) FO
(7) FO
(7) FO
(8) C
(8) C
(8) C
(9) C
(9) C
(9) C
(10) R
(10) R
(10) R
(11) IN
(11) IN
(11) IN
(12) V
(12) V
(12) V
(13) V
(13) V
(13) V
(14) V
(14) V
(14) V
(15) IN
(15) IN
(15) IN
(16) com
(16) com
(16) com
(17) V
(17) V
(17) V
(18) V
(18) V
(18) V
(19) V
(19) V
(19) V
(20) IN
(20) IN
(20) IN
(21) V
(21) V
(21) V
(22) V
(22) V
(22) V
(23) V
(23) V
(23) V
Control supply circuit under-voltage (UV) protection
Control circuit under-voltage (UV) protection
Note) Available bootstrap circuit example is given in Figs. 14 and 15.
CC(L)
CC(L)
CC(L)
FOD
FOD
FOD
SC
SC
SC
(UL)
(UL)
(UL)
(VL)
(VL)
(VL)
(WL)
(WL)
(WL)
CC(UH)
CC(UH)
CC(UH)
B(U)
B(U)
B(U)
S(U)
S(U)
S(U)
CC(VH)
CC(VH)
CC(VH)
B(V)
B(V)
B(V)
S(V)
S(V)
S(V)
CC(WH)
CC(WH)
CC(WH)
B(W)
B(W)
B(W)
S(W)
S(W)
S(W)
SC
SC
SC
(UH)
(UH)
(UH)
(VH)
(VH)
(VH)
(WH)
(WH)
(WH)
(L)
(L)
(L)
(L)
(L)
(L)
(H)
(H)
(H)
Top View
Fig. 2.
(24) V
(24) V
(24) V
(25) R
(25) R
(25) R
(26) N
(26) N
(26) N
(27) N
(27) N
(27) N
(28) N
(28) N
(28) N
(29) U
(29) U
(29) U
(30) V
(30) V
(30) V
(31) W
(31) W
(31) W
(32) P
(32) P
(32) P
TH
TH
TH
TH
TH
TH
U
U
U
V
V
V
W
W
W
Case Temperature (T
Case Temperature (T
Detecting Point
Detecting Point
Ceramic Substrate
Ceramic Substrate
Rev. E, August 2003
C
C
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