ETC IRGC5B120KB

PD - 94314
IRGC5B120KB
IRGC5B120KB IGBT Die in Wafer Form
Features
• GEN5 Non Punch Through (NPT) Technology
• Low VCE(on)
• 10µs Short Circuit Capability
• Square RBSOA
• Positive VCE(on) Temperature Coefficient
Benefits
• Benchmark Efficiency for Motor Control
• Rugged Transient Performance
• Excellent Current Sharing in Parallel Operation
• Qualified for Industrial Market
1200 V
IC(nom) = 5A
VCE(on) typ. = 2.55V @
IC(nom) @ 25°C
Motor Control IGBT
Short Circuit Rated
150mm Wafer
C
G
E
Electrical Characteristics ( Wafer Form )
Parameter
VCE (on)
V(BR)CES
VGE(th)
ICES
IGES
Description
Guaranteed (Min/Max)
Collector-to-Emitter Saturation Voltage
1.79V Min., 2.22V Max.
Collector-to-Emitter Breakdown Voltage
1200V Min.
Gate Threshold Voltage
4.4V Min., 6.0V Max.
Zero Gate Voltage Collector Current
5.0 µA Max.
Gate-to-Emitter Leakage Current
± 1.1 µA Max.
Test Conditions
IC = 2.5A, TJ = 25°C, VGE = 15V
TJ = 25°C, ICES = 100µA, VGE = 0V
VGE = VCE , TJ =25°C, IC =125µA
TJ = 25°C, VCE = 1200V
TJ = 25°C, VGE = +/- 20V
Mechanical Data
Norminal Backmetal Composition, Thickness:
Norminal Front Metal Composition, Thickness:
Dimensions:
Wafer Diameter:
Wafer thickness:
Relevant Die Mechanical Dwg. Number
Minimum Street Width
Reject Ink Dot Size
Ink Dot Location
Recommended Storage Environment:
Al-Ti-NiV-Ag ( 1kA-1kA-4kA-6kA )
99% Al, 1% Si (4 microns)
0.112" x 0.150"
150mm, with std. < 100 > flat
185 +/- 15 Microns
01-5430
100 Microns
0.25mm Diameter Minimum
Consistent throughout same wafer lot
Store in original container, in dessicated
nitrogen, with no contamination
For optimum electrical results, die attach
temperature should not exceed 300C
Recommended Die Attach Conditions
Die Outline
2.845
[.112]
NOT ES:
1. ALL DIME NSIONS ARE SHOWN IN MILLIME TE RS [INCHES ].
1.454
[.057]
2. CONT ROLLING DIME NSION: [INCH].
3. LE TT ER DE SIGNAT ION:
3.810
[.150]
0.646
[.025]
S = SOURCE
SK = S OURCE KELVIN
G = GAT E
IS = CURRENTS ENSE
E = EMIT T ER
4. DIME NSIONAL T OLERANCES:
EMITT ER
BONDING PADS:
2.325
[.091]
WIDT H
&
LE NGT H
< 0.635 T OLERANCE = + /- 0.013
< [.0250] TOLERANCE = + /- [.0005]
> 0.635 T OLERANCE = + /- 0.025
> [.0250] TOLERANCE = + /- [.0010]
G
OVERALL DIE:
0.617
[.024]
< 1.270 T OLERANCE = + /- 0.102
WIDT H
< [.050] T OLERANCE = + /- [.004]
&
> 1.270 T OLERANCE = + /- 0.203
LE NGT H
> [.050] T OLERANCE = + /- [.008]
10/02/01