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TFS Series Datasheet

Surge Capable Thick Film Non Inductive

Res Tfs  product image


The TFS Series has been specifically developed to absorb large amounts of energy by efficient use of its compact mass. Ideal  for medical surge protection applications, these thick film resistors offer non-inductive performance in an axial package. Uses include power supply conversion, electron microscopes, X-ray systems, high-resolution CRT displays, and geophysical instrument related products.


Features

  • Appropriate for medical surge protection applications
  • Ideal to replace standard carbon composition resistors
  • Custom dimensions, values, tolerances and characteristics available

Series Specifications

U (KV): 3

Energy* (J): 6

Power (W): 0.5

U (KV): 3.5

Energy* (J): 9

Power (W): 0.5

U (KV): 4

Energy* (J): 11

Power (W): 0.75

U (KV): 7

Energy* (J): 33

Power (W): 1

U (KV): 7

Energy* (J): 44

Power (W): 1.5

U (KV): 11

Energy* (J): 55

Power (W): 2


*Published energy rating is for 10ms pulse. For shorter pulses energy rat- ing has to be derated according to Max. Individual Pulse Rating chart and
Single Pulse Energy Rating considerations. 

Characteristics

Thick Film

Screen Printed Glass

100Ω up to 100KΩ

100ppm/°C

1%, 2%, 5%, 10%

-55°C to +200°C

VDE 0750 (Pulse Duration 10 msec)


Notes

  • Momentary overload capability is 5 times rated power for 1 second or 2 times rated power for 5 seconds. Always verify designs with pulse and surge conditions through thorough testing of the design at maximum operating temperature and maximum pulse loading (or some margin above maximum pulse loading
  • Damage to the resistor by excessive pulse loading is generally indicated by an increasing resistance of the resistor.
  • Energy ratings are based on single pulses (at least 1 minute between pulses).
  • For multiple pulse applications the energy pulse rating should be reduced and the average power should not exceed the nominal power rating of the selected model
  • See Single Pulse Energy section for more information

Dimensions

mm

Watts: 0.5

A: 9

B: 5.5

C: 10

H: 0.7

E: 1.3 ~ 1.6

Watts: 0.5

A: 11

B: 5.5

C: 10

H: 0.7

E: 1.3 ~ 1.6

Watts: 0.75

A: 13

B: 5.5

C: 10

H: 0.7

E: 1.3 ~ 1.6

Watts: 1

A: 21

B: 8

C: 10

H: 0.9

E: 1.4 ~ 1.80

Watts: 1.5

A: 21

B: 10.5

C: 10

H: 0.9

E: 1.4 ~ 1.8

Watts: 2

A: 26

B: 10.5

C: 10

H: 0.9

E: 1.4 ~ 1.8

Watts: 0

A: 0

B: 0

C: 0

H: 0

E: 0

Res Tfs Dimensions

Single Pulse Energy Rating


Maximum Individual Pulse Rating 

Res Tfs Graph

Although Ohmite’s TFS Series resistors have been specially designed and developed to absorb much more energy than standard resistors, pulses and transients require special consideration since they cause an instantaneous temperature rise in the resistor film. This application note can guide you through these considerations.


For applications with transients, pulses or surges the following must be considered:


1.Do not exceed the normal rated operating voltage of the device.

Res Tfs image 1

2. Using the figure at right, estimate the energy (Ea) and the pulse duration (ta) for a single pulse in your application.

Res Tfs image 2

3. Calculate the energy ratio in percent (Er) between the nominal energy rating of the model you have chosen (see table) and the single pulse energy in your application (Ea from step 2) using the formula:

Er = (Ea / E nominal) X 100

Res Tfs image 3
Res Tfs image 4

4. Refer to the Pulse Chart. On this chart find the point where the energy ratio (Er), found at step 3, and time (ta) coincide. Qualify that this point falls below the maximum pulse energy curve. If the point is above the curve a bigger model should be chosen. 

E = Energy (joules)
t = Time (seconds)
V = Voltage (volts)
R = Resistance (ohms)
C = Capacitance (farads)


Example

A 1µF capacitor is charged to 3.5kV and model TFSSC, 1KΩ has been selected. Model TFSSC is rated for 4kV, so the peak voltage of 3.5kV is acceptable.

Ea = 1/2 Cv^2 = 6.1J

ta = R C = 1ms

Er = (6.1J / 11J) X 100 = 55%

According to the pulse chart, an energy ratio of 55% for a pulse

width of 1ms falls well above the energy curve. The limit is actually located around 25-30%. Model TFSSC cannot be used for this application.

A bigger model should be chosen, for example TFSSD. Model TFSSD, 1KΩ, can be used for this application because we have an energy ratio Er of 18%, which is below the energy curve

Er = (6.1J / 33J) X 100 =18%

Ordering Information

Res Tfs Order Info


Standard Part Numbers for TFS Series 

Part number chart.

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