Formosa MS GBU6A THRU GBU6M

Formosa MS
Bridge Rectifier
GBU6A THRU GBU6M
List
List................................................................................................. 1
Package outline............................................................................... 2
Features.......................................................................................... 2
Mechanical data............................................................................... 2
Maximum ratings ............................................................................. 2
Rating and characteristic curves........................................................ 3
Pinning information........................................................................... 4
Marking........................................................................................... 4
Tube packing & Bulk packing............................................................. 4
Suggested thermal profiles for soldering processes............................. 5
High reliability test capabilities...........................................................6
http://www.formosams.com/
TEL:886-2-22696661
FAX:886-2-22696141
Page 1
Document ID
Issued Date
DS-242131
2008/02/10
Revised Date
-
Revision
Page.
A
6
Formosa MS
Bridge Rectifier
GBU6A THRU GBU6M
6.0A Miniature Glass Passivated
Single-Phase Bridge
Rectifiers-50-1000V
Package outline
GBU
Features
.156(3.95)
.148(3.75)
0.874(22.20)
0.860(21.80)
• Surge overload ratings to 175 amperes peak.
• Recommended for non-automatic applications.
• Ideal for & save space on printed circuit board.
• Applicable for automatic insertion.
• Reliable low cost construction utilizing molded plastic
9° typ.
.310(7.9)
.290(7.4)
.154(3.9)
.146(3.7)
.752(19.1)
.720(18.3)
technology results in inexpensive product.
.401(10.2)
.392(9.80)
• Glass passivated chip junctions.
• Lead-free parts meet RoHS requirments.
• UL recognized file # E321971
.079(2.00)
.063(1.60)
.075(1.9)R
–
~
~
+
.100(2.54)
.085(2.16)
.126(3.20)
.114(2.90)
.72(18.29)
.68(17.27)
Mechanical data
.047(1.20)
.035(0.90)
.022(0.56)
.018(0.46)
.080(2.03)
.065(1.65)
• Epoxy:UL94-V0 rated flame retardant
• Case : Molded plastic, GBU
• Terminals : Solder plated, solderable per
.210(5.30)
.190(4.80)
Dimensions in inches and (millimeters)
MIL-STD-750, Method 2026
• Polarity : marked on body
• Mounting Position : Any
• Weight : Approximated 4.00 gram
Maximum ratings (AT
T A=25 oC unless otherwise noted)
PARAMETER
CONDITIONS
Forward rectified current
See Fig.1
Forward surge current
8.3ms single half sine-wave superimposed on
rate load (JEDEC methode)
V R = V RRM T A = 25 OC
Reverse current
V R = V RRM T A = 125 OC
Symbol
I FSM
175
A
5.0
IR
Typical Junction capacitance
Note3
CJ
Note2
A 2s
127
211.0
94.0
7.4
2.2
R èJA
T STG
uA
500
R èJC
Storage temperature
UNIT
A
I 2t
Note1
MAX.
6.0
t < 8.3 m s
Typical thermal resistance
TYP.
IO
I 2t Rating for fusing
Typical thermal resistance
MIN.
pF
O
C/W
O
C/W
O
+175
-65
C
Note 1. Unit case mounted on 3.2x3.2"x0.12" thick (8.2x8.2x0.30 cm) Aluminum plate heatsink
2. Unit mounted on P.B.C., 0.5"x0.5" (12x12mm) copper pads, 0.375"(9.5mm) lead length
3. Measured at 1.0MHz and applied reverse voltage of 4.0 Vo
4. Recommended mounting position is to bolt down on heatsink with silicon thermal compound for maximum heat transfer with #6 screws
*1
V RRM
(V)
V RMS*2
(V)
*3
VR
(V)
GBU6A
50
35
50
SYMBOLS
GBU6B
100
70
100
GBU6D
200
140
200
GBU6G
400
280
400
GBU6J
600
420
600
GBU6K
800
560
800
GBU6M
1000
700
1000
http://www.formosams.com/
TEL:886-2-22696661
FAX:886-2-22696141
*4
VF
(V)
Operating
temperature
T J, ( OC)
*1 Repetitive peak reverse voltage
*2 RMS voltage
*3 Continuous reverse voltage
1.10
-55 to +150
*4 Maximum forward voltage@6A
Page 2
Document ID
Issued Date
DS-242131
2008/02/10
Revised Date
-
Revision
Page.
A
6
Fig.1 - Forward Current Derating Curve
8
6
4
2
60Hz resistive
or inductive load
0
20
40
60
80
100 120
140
Fig. 2 - Maximum Non-Repetitive Peak
Forward Surge Current
Peak Forward Surge Current (A)
Average Forward Current (A)
Rating and characteristic curves (GBU6A THRU GBU6M)
200
150
100
50
0
160
1
10
Fig. 3 - Typical Instantaneour Forward
Characteristics (Per Leg)
Fig. 4 - Typical Reverse Characteristics
Per Leg
1000
100
10
T j =25°C
1.0
0.1
pulse width =300µS
1% duty cycle
0.01
0.4
0.6
0.8
1.0
1.2
1.4
1.6
100
T j =125°C
10
0.1
T j =25°C
0.01
0
100
50 - 400V
600 - 1000V
1.0
10
100
Transient Thermal Resistance (°C/W)
Junction Capacitance (pF)
T J =25°C
f=1.0MHz
Vsig=50mVp-p
40
60
80
100
Fig. 6 - Typical Transient Thermal
Impedance
100
10
1
0.1
0.01
0.1
1.0
10
100
Heating Time, t (sec)
Reverse Voltage (Volts)
http://www.formosams.com/
TEL:886-2-22696661
FAX:886-2-22696141
20
Percent of Rated Peak Reverse Voltage ( %)
Fig. 5 - Typical Junction Capacitance
1000
50 - 400V
600 - 1000V
1.0
Instantaneous Forward Voltage (Volts)
10
0.1
100
Number of Cycles at 60 Hz
Instantaneous Reverse Current (µA)
Instantaneous Forward Current (A)
Lead Temperature ( OC)
Page 3
Document ID
Issued Date
DS-242131
2008/02/10
Revised Date
-
Revision
Page.
A
6
Formosa MS
Bridge Rectifier
GBU6A THRU GBU6M
Pinning information
Simplified outline
Symbol
~
~
~
–
+
+
-
~
Marking
Type number
Marking code
GBU6A
GBU6B
GBU6D
GBU6G
GBU6J
GBU6K
GBU6M
GBU6A
GBU6B
GBU6D
GBU6G
GBU6J
GBU6K
GBU6M
Tube packing
PACKAGE
TUBE
(pcs)
TUBE SIZE
(m/m)
BOX
(pcs)
INNER
BOX
(m/m)
20
474*42*7
1000
490*145*132
GBU
CARTON
SIZE
(m/m)
CARTON
(pcs)
503*310*150
2,000
APPROX.
GROSS WEIGHT
(kg)
14.0
BULK PACKING
DEVICE
Q'TY 1
INNER
CASE
(PCS / BOX)
BOX SIZE
TYPE
GBU
CARTON
Q'TY 2
SIZE
(PCS / CARTON)
(m/m)
800
http://www.formosams.com/
TEL:886-2-22696661
FAX:886-2-22696141
350 * 337 * 44
Page 4
CROSS
WEIGHT(kg)
(m/m)
375 * 360 * 213
APPROX.
3,200
Document ID
Issued Date
DS-242131
2008/02/10
16.9
Revised Date
-
Revision
Page.
A
6
Formosa MS
Bridge Rectifier
GBU6A THRU GBU6M
Suggested thermal profiles for soldering processes
1.Storage environment: Temperature=10 oC~35 oC Humidity=65%±15%
2.Reflow soldering of surface-mount devices
Critical Zone
T L to T P
tP
TP
Ramp-up
TL
tL
Temperature
T smax
T smin
TS
ts
Preheat
25
Ramp-down
t25 oC to Peak
Wave Soldering
IR Reflow
Time
3.Flow (wave)soldering (solder dipping)
Profile Feature
Soldering Condition
Average ramp-up rate(T L to TP )
<3oC/sec
Preheat
-Temperature Min(Tsmin)
-Temperature Max(Tsmax)
-Time(min to max)(t s )
100oC
150oC
60~120sec
Tsmax to TL
-Ramp-upRate
<3oC/sec
Time maintained above:
-Temperature(TL )
-Time(tL )
183oC
60~150sec
255oC-0/+5 oC
Peak Temperature(T P )
Time within 5 oC of actual Peak
Temperature(tP )
10~30sec
Ramp-down Rate
<6 oC/sec
Time 25oC to Peak Temperature
<6minutes
http://www.formosams.com/
TEL:886-2-22696661
FAX:886-2-22696141
Page 5
Document ID
Issued Date
DS-242131
2008/02/10
Revised Date
-
Revision
Page.
A
6
Formosa MS
Bridge Rectifier
GBU6A THRU GBU6M
High reliability test capabilities
Item Test
Conditions
Reference
O
1. Solder Resistance
at 260±5 C for 10±2sec.
immerse body into solder 1/16"±1/32"
MIL-STD-750D
METHOD-2031
2. Solderability
at 245±5 OC for 5 sec.
MIL-STD-202F
METHOD-208
3. High Temperature Reverse Bias
V R=80% rate at T A=150 OC for 168 hrs.
MIL-STD-750D
METHOD-1026
4. Forward Operation Life
Rated average rectifier current at T=25 OC for 500hrs.
MIL-STD-750D
METHOD-1027
T A = 25 OC, I F = I O
On state: power on for 5 min.
off state: power off for 5 min.
on and off for 500 cycles.
MIL-STD-750D
METHOD-1036
5. Intermittent Operation Life
6. Pressure Cooker
15P SIG at TA=121 OC for 4 hrs.
7. Temperature Cycling
-55 OC to +125OC dwelled for 30 min.
and transferred for 5min. total 10 cycles.
8. Thermal Shock
9. Forward Surge
10. Humidity
11. High Temperature Storage Life
12. Solvent Resistance
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TEL:886-2-22696661
FAX:886-2-22696141
MIL-STD-750D
METHOD-1051
MIL-STD-750D
METHOD-1056
0 OC for 5 min. rise to 100 OC for 5 min. total 10 cycles.
MIL-STD-750D
METHOD-4066-2
8.3ms single half sine-wave superimposed
on rated load, one surge.
at TA=65 OC, RH=98% for 1000hrs.
MIL-STD-750D
METHOD-1038
at 175OC for 1000 hrs.
MIL-STD-750D
METHOD-1031
Dip into Freon at 25OC for 1 min.
MIL-STD-202F
METHOD-215
Page 6
Document ID
Issued Date
DS-242131
2008/02/10
Revised Date
-
Revision
Page.
A
6