High Power, Non-Inductive, Ceramic Axial Lead Resistors from U.S. Resistor provide unique solutions in applications where carbon composition traditionally have been used, often replacing two (2) or more with a single ceramic resistor. Some areas where the axial lead resistors are being used are in testing equipment, high voltage power supplies and cable connectors, soft start, pulse waveform, EMF / RFI test circuits, high voltage power supplies, and RC snubber circuits. These ceramic axial lead resistors perform well where high peak power or high energy pulses are required to be handled using smaller size resistors. These non-inductive axial lead resistors are able to dissipate the energy uniformly through the entire resistor body.
|
Part |
“A” |
“B” |
Low |
High |
Power* |
Energy |
Voltage |
|
83-A01 |
0.250 |
1 |
17 |
81,000 |
2.2 |
236 |
5,000 |
|
83-A02 |
0.250 |
2 |
33 |
162,000 |
4.5 |
471 |
15,000 |
|
83-A03 |
0.250 |
3 |
49 |
244,000 |
6.7 |
707 |
25,000 |
|
83-A04 |
0.250 |
4 |
66 |
325,000 |
9.0 |
942 |
35,000 |
|
83-A05 |
0.250 |
5 |
82 |
407,000 |
11.2 |
1,178 |
45,000 |
|
83-A06 |
0.250 |
6 |
98 |
488,000 |
13.5 |
1,414 |
55,000 |
|
83-A07 |
0.250 |
7 |
115 |
570,000 |
15.7 |
1,649 |
65,000 |
|
83-A08 |
0.250 |
8 |
131 |
651,000 |
18.0 |
1,885 |
75,000 |
|
83-A09 |
0.250 |
9 |
147 |
733,000 |
20.2 |
2,121 |
85,000 |
|
83-A10 |
0.250 |
10 |
163 |
814,000 |
22.5 |
2,356 |
95,000 |
|
83-A11 |
0.250 |
11 |
180 |
896,000 |
24.7 |
2,592 |
105,000 |
|
83-A12 |
0.250 |
12 |
196 |
977,000 |
27.0 |
2,827 |
115,000 |
Part Number plus the Resistance Code is used for specifying a particular part. The Resistance code is defined by the first two numbers of the resistance value, followed by a single number multiplier and the resistance tolerance (20% is L, 10% is K, 5% is J). When the resistance is less than 10 ohms, the multiplier is not used and replaced by an “R”. For example, a 0.250” x 6.0” Axial Leaded Resistor at 250 ohms +/-10% would be qualified as “83-A06-251K.
|
Part |
“A” |
“B” |
Low |
High |
Power* |
Energy |
Voltage |
|
83-B01 |
0.437 |
1 |
6 |
26,000 |
3.9 |
720 |
5,000 |
|
83-B02 |
0.437 |
2 |
11 |
53,000 |
7.9 |
1,440 |
15,000 |
|
83-B03 |
0.437 |
3 |
16 |
80,000 |
11.8 |
2,160 |
25,000 |
|
83-B04 |
0.437 |
4 |
22 |
106,000 |
15.7 |
2,880 |
35,000 |
|
83-B05 |
0.437 |
5 |
27 |
133,000 |
19.6 |
3,600 |
45,000 |
|
83-B06 |
0.437 |
6 |
32 |
160,000 |
23.6 |
4,320 |
55,000 |
|
83-B07 |
0.437 |
7 |
38 |
186,000 |
27.5 |
5,040 |
65,000 |
|
83-B08 |
0.437 |
8 |
43 |
213,000 |
31.4 |
5,760 |
75,000 |
|
83-B09 |
0.437 |
9 |
48 |
240,000 |
35.3 |
6,479 |
85,000 |
|
83-B10 |
0.437 |
10 |
54 |
266,000 |
39.3 |
7,199 |
95,000 |
|
83-B11 |
0.437 |
11 |
59 |
293,000 |
43.2 |
7,919 |
105,000 |
|
83-B12 |
0.437 |
12 |
65 |
320,000 |
47.1 |
8,639 |
115,000 |
Part Number plus the Resistance Code is used for specifying a particular part. The Resistance code is defined by the first two numbers of the resistance value, followed by a single number multiplier and the resistance tolerance (20% is L, 10% is K, 5% is J). When the resistance is less than 10 ohms, the multiplier is not used and replaced by an “R”. For example, a 0.437” x 6.0” Axial Leaded Resistor at 5,000 ohms +/-10% would be qualified as “83-B06-502K
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