IRCTT WBC-R0202GS-01-1002-J

Wire Bondable
Chip Resistors
IRC Advanced Film Division
WBC Series
• Discrete or tapped schematics
• MIL inspection available
• High resistor density
IRC’s WBC series wire bondable chip resistors are ideally suited for
the most demanding hybrid application. The WBC combines IRC’s
TaNSil® tantalum nitride thin film technology with silicon substrate processing to produce an extremely small
footprint device with the proven stability, reliability and moisture performance of IRC’s TaNSil® resistor film.
Available in a wide range of tolerances and temperature coefficients to fit a variety of hybrid circuit applications. Custom resistance values, sizes and schematics are available on request from the factory.
Electrical Data
Physical Data
R0202 - Discrete
0.020˝ ±0.001
(0.508mm ±0.025)
Absolute Tolerance
Absolute TCR
R
0.004˝ min bond pad size
Rated Operating Voltage
(not to exceed √ P x R )
(0.508mm ±0.025)
Operating Temperature
B0202 - Discrete back contact
0.020˝ ±0.001
Back contact
(0.508mm ±0.025)
to ±25ppm/°C
Package Power Rating
(@ 70°C)
0.020˝ ±0.001
Noise
R
Top contact
pad chamfered
Substrate Material
Substrate Thickness
0.020˝ ±0.001
(0.508mm ±0.025)
0.030˝ ±0.001
(0.762mm ±0.025)
T0303 - Tapped network ½R + ½R
Bond Pad
Metallization
Backside
½R
½R
Passivation
0.030˝ ±0.001
(0.762mm ±0.025)
250mW
100V
-55°C to +150°C
<-30dB
Top contact
0.004˝ min bond pad size
to ±0.1%
Oxidized Silicon
(10KÅ SiO2 min)
0.010˝ ±0.001
(0.254mm ±0.025)
Aluminum
10KÅ minimum
Gold
15KÅ minimum
R0202 and
T0303
Silicon
(Gold available)
B0202
Gold
3KÅ minimum
Silicon Dioxide or
Silicon Nitride
0.004˝ min bond pad size
General Note
IRC reserves the right to make changes in product specification without notice or liability.
All information is subject to IRC’s own data and is considered accurate at time of going to print.
© IRC Advanced Film Division • Corpus Christi Texas 78411 USA
Telephone: 361 992 7900 • Facsimile: 361 992 3377 • Email: [email protected] • Website: www.irctt.com
A subsidiary of
TT electronics plc
WBC Series Issue April 2006
Wire Bondable
Chip Resistors
IRC Advanced Film Division
Power Derating Data
TCR/Inspection Code Table
Absolute TCR
Commercial
Code
MIL Inspection
Code*
±300ppm/°C
00
04
±100ppm/°C
01
05
±50ppm/°C
02
06
±25ppm/°C
03
07
*Notes: Product supplied to Class H of MIL-PRF 38534 includes 100% visual inspection
Manufacturing Capabilities Data
Resistance Range
Available Absolute
Tolerances
Available Ratio
Tolerances (T0303 only)
Best Absolute TCR
Tracking TCR
(T0303 only)
10Ω-20Ω
GJK
FGJ
±100ppm/°C
±50ppm/°C
21Ω−50Ω
FGJK
FGJ
±100ppm/°C
±50ppm/°C
51Ω-100Ω
CDFGJK
CDFGJ
±100ppm/°C
±25ppm/°C
101Ω−200Ω
CDFGJK
CDFGJ
±50ppm/°C
±10ppm/°C
201Ω−500Ω
BCDFGJK
BCDFGJ
±50ppm/°C
±5ppm/°C
501Ω-999Ω
BCDFGJK
BCDFGJ
±25ppm/°C
±2ppm/°C
1.0KΩ-1.0MΩ
BCDFGJK
ABCDFGJ
±25ppm/°C
±2ppm/°C
© IRC Advanced Film Division • Corpus Christi Texas 78411 USA
Telephone: 361 992 7900 • Facsimile: 361 992 3377 • Email: [email protected] • Website: www.irctt.com
WBC Series Issue April 2006
Wire Bondable
Chip Resistors
IRC Advanced Film Division
Environmental Data
Method
Max ∆R
Typical ∆R
MIL-STD-202
Method 107
Test condition F
±0.1%
±0.02%
High Temperature Exposure
MIL-STD-883
Method 1008
150°C, 1000 hours
±0.1%
±0.05%
Low Temperature Storage
-55°C, 1000 hours
±0.03%
±0.01%
Life
MIL-STD-202
Method 108
70°C, 1000 hours
±0.5%
±0.01%
Life at Elevated Temperature
MIL-STD-202
Method 108
125°C, 1000 hours
±0.5%
±0.05%
Test
Thermal Shock
Ordering Data
Prefix
WBC -
RO2O2
A
S
- 01 - 1002 -
F
B
Style
R0202 = Discrete Element
B0202 = Discrete Element with Back Contact
T0303 = Tapped Network
Bonding pads
A = Aluminum; G = Gold
Backside
G = Gold; S = Silicon
TCR/Inspection Code
Reference TCR/Inspection Code Table
Total Resistance (R)
4-Digit Resistance Code Ex: 1002 = 10KΩ; 50R1 = 50.1Ω
Absolute Tolerance Code
K = ±10%; J = ±5%; G = ±2%; F = ±1%; D = ±0.5%; C = ±0.25%; B = ±0.1%
Ratio Tolerance Code (T0303 Only)
J = ±5%; G = ±2%; F = ±1%; D = 0.5%; C = ±0.25%; B = ±0.1%; A = ±0.05%
Packaging
Standard packaging is 2˝ x 2˝ chip tray. For additional information or to discuss your
specific requirements, please contact our Applications Team using the contact details below.
© IRC Advanced Film Division • Corpus Christi Texas 78411 USA
Telephone: 361 992 7900 • Facsimile: 361 992 3377 • Email: [email protected] • Website: www.irctt.com
WBC Series Issue April 2006