BOURNS PWR221T-30

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13 %
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Features
Applications
■ TO-220 housing
■ Power supplies
■ Low inductance
■ Motor drives
■ Ceramic backplane
■ Test and measurement
■ High power rating
■ Rectifiers
■ RoHS compliant*
PWR221T-30 Series Power Resistor
General Information
Bourns® PWR221T-30 Series is a TO-220 style power resistor made using thick film on alumina ceramic technology. It is used in
current limiting, capacitor discharge or current measurement circuits in power supplies for telecom and industrial applications.
Electrical & Thermal Characteristics
Material Characteristics
Parameter
Resistance (See table of standard values)
Power Rating @ 25 ˚C Case Temperature
Tolerance
TCR
0.100 Ω<R<130.0K Ω
0.050 Ω<R<0.100 Ω
0.020 Ω<R<0.050 Ω
Thermal Resistance - Rthj
Inductance
Operating Voltage
Dielectric Strength
Insulation Resistance
Operating Temperature
Resistor .................................. Thick film
Substrate ......................Alumina (AL203)
Housing ........................................Epoxy
Pins....................Tinned Copper (Sn/Cu)
Flammability ........Conforms to UL-94V0
Value(s)
0.02 Ω to 130 KΩ
30 W**
±1 %***, ±5 %
±100 PPM/˚C
±300 PPM/˚C
±600 PPM/˚C
4.2 ˚C/W
0.1 µH maximum
√P*R with a maximum of 250 V
2 KV AC
10 GΩ
-55 ˚C to +150 ˚C
** Power rating of 2.25 W when mounted free to air (no heat sink).
*** Available for most values. Check Standard Resistance Values table.
Reliability Characteristics
Parameter
Short Term Overload (2x Pr for R < 2 Ω,
1.6 x Pr for R ≥ 2 Ω, V < 1.5 x Operating Voltage)
Load Life (2000 hours at rated power)
Thermal Shock (-55 ˚C to 155 ˚C, 5 cycles)
Resistance to Soldering Heat (10 seconds at 270 ˚C)
Vibration (20 G 10-2000 Hz .06 ” D.A.)
Terminal Strength (MIL-STD-202, Method 211
Test A1)
Shock (Saw Tooth: 100 g/6 ms)
Humidity (Steady State) 1000 hrs. 85 °C/85 % RH
High Temperature Exposure
(100 hrs - 40 % Pr @ +125 °C)
Specification
ΔR
±0.25 %
ΔR ±1.0 %
ΔR ±0.5 %
ΔR ±0.5 %
ΔR ±0.25 %
ΔR ±0.2 %
ΔR ±0.5 %
ΔR ±0.5 %
ΔR ±0.5 %
Packaging
............................................50 pcs./tube
Standard Resistance Values
Code
Resistance
Value
Code
Resistance
Value
R020
R050
R100
R500
R750
1R00
1R50
2R00
2R20
2R50
3R00
3R30
4R70
5R00
7R50
8R20
10R0
15R0
0.02***
0.05***
0.1
0.5
0.75
1
1.5
2
2.2
2.5
3
3.3
4.7
5
7.5
8.2
10
15
20R0
30R0
33R0
47R0
50R0
56R0
75R0
1000
2000
3300
4700
7500
1001
3301
1002
3002
1003
1303
20
30
33
47
50
56
75
100
200
330
470
7500
1000
3300
10000
33000
100000
130000
*** 5 % Tolerance
Typical Part Marking
Derating Curve
120
MODEL
NUMBER
Power Ratio (%)
100
80
RESISTANCE
CODE
60
MANUFACTURER'S
TRADEMARK
221 30
R500 1%
902
COSTA RICA
TOLERANCE
DATE CODE
COUNTRY
OF ORIGIN
40
20
0
25
35
45
55
65
75
85
95
105
Case Temperature (°C)
115 125 135 145 150
*RoHS Directive 2002/95/EC Jan 27 2003 including Annex.
Specifications are subject to change without notice.
Customers should verify actual device performance in their specific applications.
PWR221T-30 Series Power Resistor
Product Dimensions
10.41 ± 0.25
(.410 ± .010)
3.18 ± 0.25
(.125 ± .010)
CL
1.38 ± 0.25
(.054 ± .010)
3.18 ± 0.1
(.125 ± .004)
DIA.
8.38 ± 0.25
(.330 ± .010)
CERAMIC
2.92 ±
(.115 ±
CERA
3.18 ± 0.25
(.125 ± .010)
16.26 ± 0.25
(.640 ± .010)
9.14 ± 0.25
(.360 ± .010)
CERAMIC
1.02 ± 0.25
(.040 ± .010)
CERAMIC
2.54 ± 0.25
(.100 ± .010)
12.7 ± 1.27
(.500 ± .050)
0.72 ± 0.12
(.029 ± .005)
5.08 ± 0.25
(.200 ± .010)
1.03 ± 0.25
(.041 ± .010)
DIMENSIONS:
MM
(INCHES)
How to Order
Pulse Power Rating
PWR 221 T - 30 - 10R0 F
100
Model
PWR = Power
Resistor
Package
220 = TO-220 Style
Energy in Joules
10
Pin Style
T = Through-hole
Power
30 = 30 W
1
Resistance Value
<100 ohms ... “R” represents decimal
point (examples: 7R50 =
7.5 Ω; R500 = 0.5 Ω)
≥100 ohms ... First three digits are
significant, fourth digit
represents number of
zeros to follow (examples: 2000 = 200 ohms;
3002 = 30K ohms)
0.1
0.01
10 - 6
10 - 5
10 -4
10 - 3
10 -2
Absolute Tolerance
J=5%
F=1%
Overload Duration in Seconds
The energy absorbed by the resistor expressed in Joules can be calculated by
multiplying the peak power of the pulse in watts times the length of the pulse in
seconds.
The energy should not exceed the limits shown in the graph. The overload voltage
should not exceed 1.5 times the maximum operating voltage.
06/10
Specifications are subject to change without notice.
Customers should verify actual device performance in their specific applications.