SGS Thomson Microelectronics GS175T48-15, GS175T48-12, GS175T48-5, GS120T48-3.3 Datasheet

GS120/175T48 Family
120W/175W DC-DC CONVERTERS FAMILY
Type V
GS175T48-5 GS175T48-5E
GS175T48-12 GS175T48-12E
GS175T48-15 GS175T48-15E
i
38 to 60 V 3,35 V 35 A
38 to 60 V 5,075 V 35 A
38 to 60 V 12,0 V 15 A
38 to 60 V 15,0 V 12 A
V
o
I
FEATURES
UL, CSA, TUVapproved High outputpower (up to 175W) High efficiency(82% typ. on GS175T48-5mod­ule) Paralleloperation with equal current sharing Synchronizationpin Remote ON/OFF Remote load voltagesense compensation Output short-circuitprotection Undervoltagelock-out Minimal overshootduring load transients Output overvoltageprotection 500V
inputto output isolationvoltage
DC
Internal input and output filtering Softstart PCB or chassismountable Optional additional finned heatsink Mechanical dimensions 125 66,5 19 (4,92 2,62 0,75)
o
DESCRIPTION
The GS120/175T48familyincludes120/175WDC­DC convertersused to generate fixed isolatedout­put voltages with an outputcurrent up to 35A from a wide range input voltage (38 to 60V). The suffix E Identifies the metric threading on the planar heatsink (see fig. 1).
OPTION
Type
Ordering Number
HS01
June 1994 1/10
Description Thermal Resistance
Additional finned heatsink
(See fig. 7)
2.8°C/W
Dimensions
L WH mm (inches)
125 66.5 15
( 4.92 2.62 0.59)
GS120/175T48 FAMILY
GS120T48-3.3ELECTRICAL CHARACTERISTICS (T
Symbol Parameter Test Conditions Min Typ Max Unit
Input Voltage Vo= 3.35V Io= 0 to 35A
V
i
V
l
ipk
V
l
ien
V
V
V
V
V
V
V
V
δV
I
I
osc
t
V
R
T
cop
T
Input Undervoltage Lockout Vo= 3.35V
iuv
AverageInput Current Vi= 0 to 60V
l
i
Inrush Transient Peak Current Vi= 60V
Reflected Input Current Vi= 38 to 60V
l
ir
Enable Input Voltage Vi= 38 to 60V Io= 0 to 35A
ien
Enable Input Current Vi= 38 to 60V Io= 0 to 35A
Inhibit Voltage Vi= 38 to 60V Io= 0 to 35A
iinh
Input Power Vi= 38 to 60V Io= 0A (No Load)
P
i
Total Output Voltage Regulation Vi= 38 to 60V Io= 0 to 35A
o
Short-term Output
ost
VoltageRegulation Total Static Tolerance Vi= 38 to 60V Io= 0 to 35A
ots
Output Overvoltage
ol
Limit Initiation Output Ripple Voltage Vi= 38 to 60V Io= 35A
or
Output Noise Voltage Vi= 38 to 60V Io= 35A
on
Total RemoteSense
o
Compensation Peak Load Transient Response Vi= 48V δIo=5A
o
Output Current Vi= 38 to 60V Vo= 3.35V
I
o
OvercurrentLimit Initiation Vi= 48V
ol
Shortcircuit Output Current Vi= 48V
LoadTransient Settling Time Vi= 48V δIo=5A
t
s
Turn-onTime Vi= 48V Io= 35A
on
IsolationVoltage
is
Switching Frequency Vi= 38 to 60V Io= 0 to 35A
f
s
η Efficiency V
Thermal Resistance Case toAmbient
th
Operating Case Temperature Range
Storage Temperature Range
stg
(Operating Conditions)
Io= 0 to 35A
Io= 35A
Io= 35A
BW = 5Hz to 20MHz Io= 35A (See fig. 2)
V
=0V
ien
Vien = open
Vi= 38 to 60V Io= 0 to 35A
Vi= 38 to 60V Io= 0 to 35A
Vi= 38 to 60V
slope = 0.1A/µs
Vo= 0.2 to 0.5V
slope = 0.1A/µs
V
= from high to low
ien
V
= 0 to 60V Io= 35A
i
V
= low
ien
= 38 to 60V Io= 35A
i
=25°Cunless otherwisespecified)
amb
38 48 60 V
32 34 36 V
0 1.2 V
818V
1.5 2 W
3.25 3.35 3.45 V
3.30 3.35 3.40 V
3.28 3.35 3.42 V 4 4.5 5.2 V
20 30 mVpp 50 80 mVpp
035A
36 39 A
310
500 V 160 175 200 kHz
76 77 %
5.2 °C/W
– 10 +85 °C
– 40 +105 °C
4.2 A
0.2 A
20 mApp
-1 mA
0.6 V
60 mVp
51 A
200 µs
5ms
DC
DC
2
DC
s
2/10
GS120/175T48 FAMILY
GS175T48-5ELECTRICAL CHARACTERISTICS (T
Symbol
Input Voltage Vo= 5.075V Io= 0 to 35A
V
i
V
l
ipk
V
l
ien
V
V
V
V
V
V
V
V
δV
I
I
osc
t
V
R
T
cop
T
Input Undervoltage Lockout Vo= 5.075V
iuv
AverageInput Current Vi= 0 to 60V Io= 35A
l
i
Inrush Transient Peak Current Vi= 60V
Reflected Input Current Vi= 38 to 60V
l
ir
Enable Input Voltage Vi= 38 to 60V Io= 0 to 35A
ien
Enable Input Current Vi= 38 to 60V Io= 0 to 35A
Inhibit Voltage Vi= 38 to 60V Io= 0 to 35A
iinh
Input Power Vi= 38 to 60V Io= 0A (No Load)
P
i
Total Output Voltage Regulation Vi= 38 to 60V Io= 0 to 35A
o
Short-term Output
ost
VoltageRegulation Total Static Tolerance Vi= 38 to 60V Io= 0 to 35A
ots
Output Overvoltage
ol
Limit Initiation Output Ripple Voltage Vi= 38 to 60V Io= 35A
or
Output Noise Voltage Vi= 38 to 60V Io= 35A
on
Total RemoteSense Compensation Vi= 38 to 60V
o
Peak Load Transient Response Vi= 48V δIo=5A
o
Output Current Vi= 38 to 60V Vo= 5.075V
I
o
OvercurrentLimit Initiation Vi= 48V
ol
Shortcircuit Output Current Vi= 48V
LoadTransient Settling Time Vi= 48V δIo=5A
t
s
Turn-onTime Vi= 48V Io= 35A
on
IsolationVoltage
is
Switching Frequency Vi= 38 to 60V Io= 0 to 35A
f
s
η Efficiency V
Thermal Resistance Case toAmbient
th
Operating Case Temperature Range
Storage Temperature Range
stg
Parameter Test Conditions Min Typ Max Unit
(Operating Conditions)
Io= 0 to 35A
Io= 35A
BW = 5Hz to 20MHz Io= 35A (See fig. 2)
V
=0V
ien
Vien = open
Vi= 38 to 60V Io= 0 to 35A
Vi= 38 to 60V Io= 0 to 35A
slope = 0.1A/µs
Vo= 0.2 to 0.5V
slope = 0.1A/µs
V
= from high to low
ien
V
= 0 to 60V Io= 35A
i
V
= low
ien
= 38 to 60V Io= 35A
i
=25°C unlessotherwise specified)
amb
38 48 60 V
32 34 36 V
0 1.2 V
818V
4.94 5.075 5.21 V
5.002 5.075 5.148 V
4.97 5.075 5.18 V 6 6.3 7 V
035A
36 39 A
310
500 V 160 175 200 kHz
81 82 %
– 10 +85 °C
– 40 +105 °C
DC
DC
6.1 A
2
0.2 A
30 mApp
-1 mA
1.5 2 W
20 30 mVpp 50 80 mVpp
0.6 V
100 mVp
51 A
250 µs
5ms
5.2 °C/W
s
DC
3/10
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