RXE030K [ETC]

PolySwitch RXE device; RXE的PolySwitch器件


型号：	RXE030K
厂家：	ETC
描述：	PolySwitch RXE device RXE的PolySwitch器件
文件：	总12页 (文件大小：110K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

RXE Selection Guide

and Product Data

This section has two parts:

• A Selection Guide that walks you through the process of

selecting the correct RXE device for a circuit.

• Product Data that outlines electrical characteristics,

physical characteristics, agency recognitions, environmental

specifications, component layouts, tape and reel specifications,

and ordering information for RXE devices.

RXE Selection Guide

Follow these seven steps to select a PolySwitch RXE device for

a circuit:

1. Define the operating parameters for the circuit.

These include:

• Maximum ambient operating temperature

• Normal operating current

• Maximum operating voltage (RXE is 60 V maximum)

• Maximum interrupt current

2. Select the RXE device that accommodates the circuit’s maximum

ambient operating temperature and normal operating current.

3. Compare the RXE device’s maximum operating voltage and

maximum interrupt current with the circuit’s to be sure the circuit

does not exceed the device ratings.

4. Check the RXE device’s time-to-trip to be sure it will protect the

circuit.

5. Verify that the circuit’s ambient operating temperatures are within the

RXE device’s operating temperature range.

6. Verify that the RXE device’s dimensions fit the application’s space

considerations.

7. Independently evaluate and test the suitability and performance

of the RXE device in the application.

TUV Rheinland

Raychem Circuit Protection Devices

RXE Devices 165

RXE

Radial Leaded

1. Define the circuit’s operating parameters.

Fill in the following information about the circuit:

Maximum ambient operating temperature

________________

Normal operating current

Maximum operating voltage (RXE is 60 V max.)

Maximum interrupt current

2. Select the PolySwitch RXE device that will accommodate the

circuit’s maximum ambient operating temperature and

mal operating current.

nor-

Look across the top of the table on the next page to find the tempera-

ture that most closely matches the circuit’s maximum ambient operat-

ing temperature. Look down that column to find the value equal to or

greater than the circuit’s normal operating current. Now look to the far

left of that row to find the part number for the RXE device that will best

accommodate the circuit.

The thermal derating curve located on the next page is a normalized

representation of the data in the table located on the same page.

166 RXE Devices

Raychem Circuit Protection Devices

RXE

Radial Leaded

I_Holdvs. temperature

Maximum ambient operating temperatures (°C)

Part

number

–40°

0.16

0.26

0.31

0.39

0.47

0.62

0.78

1.01

1.16

1.40

1.71

2.09

2.48

2.87

3.88

4.65

5.81

–20°

0.14

0.23

0.27

0.34

0.41

0.54

0.68

0.88

1.02

1.22

1.50

1.84

2.18

2.52

3.40

4.08

5.10

0°

20°

40°

50°

60°

70°

85°

RXE010

RXE017

RXE020

RXE025

RXE030

RXE040

RXE050

RXE065

RXE075

RXE090

RXE110

RXE135

RXE160

RXE185

RXE250

RXE300

RXE375

0.12

0.20

0.24

0.30

0.36

0.48

0.60

0.77

0.89

1.07

1.31

1.61

1.90

2.20

2.98

3.57

4.46

0.10

0.17

0.20

0.25

0.30

0.40

0.50

0.65

0.75

0.90

1.10

1.35

1.60

1.85

2.50

3.00

3.75

0.08

0.14

0.16

0.20

0.24

0.32

0.41

0.53

0.61

0.73

0.89

1.09

1.30

1.50

2.03

2.43

3.04

0.07

0.12

0.14

0.18

0.22

0.29

0.36

0.47

0.54

0.65

0.79

0.97

1.15

1.33

1.80

2.16

2.70

0.06

0.11

0.13

0.16

0.19

0.25

0.32

0.41

0.47

0.57

0.69

0.85

1.01

1.17

1.58

1.89

2.36

0.05

0.09

0.11

0.14

0.16

0.22

0.27

0.35

0.41

0.49

0.59

0.73

0.86

1.00

1.35

1.62

2.03

0.04

0.07

0.08

0.10

0.12

0.16

0.20

0.26

0.30

0.36

0.44

0.54

0.64

0.74

1.00

1.20

1.50

Thermal derating curve

200

150

100

–40

–20

Device’s ambient temperature (°C)

Raychem Circuit Protection Devices

RXE Devices 167

RXE

Radial Leaded

3. Compare maximum operating voltages and maximum

interrupt currents.

Look down the first column of the table below to find the part number

you selected in Step 1. Look to the right in that row to find the device’s

maximum operating voltage (V max.) and maximum interrupt current

(I max.).

Compare both ratings with the circuit’s to be sure the circuit’s ratings

do not exceed those of the RXE device.

Maximum device voltages and currents

Part

number

V max.

(volts)

I max.*

(amps)

RXE010

RXE017

RXE020

RXE025

RXE030

RXE040

RXE050

RXE065

RXE075

RXE090

RXE110

RXE135

RXE160

RXE185

RXE250

RXE300

RXE375

* Devices may withstand higher interrupt current at lower voltages.

Each application will need to be individually qualified.

168 RXE Devices

Raychem Circuit Protection Devices

RXE

Radial Leaded

4. Determine time-to-trip.

Time-to-trip is the amount of time it takes for a device to switch to a

high-resistance state once a fault current has been applied across the

device.

Identifying the RXE device’s time-to-trip is important in order to provide

the desired protection capabilities. If the device you choose trips

too fast, undesired or nuisance tripping will occur. If the device trips too

slowly, the components being protected may be damaged before the

device switches to a high-resistance state.

The chart below shows the typical time-to-trip at 20°C for each

PolySwitch RXE device. For example, the chart indicates that the

typical time-to-trip for RXE050 at 5 A is 0.3 second.

On the chart below, find the typical time-to-trip for the RXE device you

selected. If the RXE device’s time-to-trip is too fast or too slow for the

circuit, go back to Step 2 and choose an alternate device.

Typical time-to-trip at 20°C

B CDE F G H I JK LMN OPQ

1000

100

A = RXE010

B = RXE017

C = RXE020

D = RXE025

E = RXE030

F = RXE040

G = RXE050

H = RXE065

I = RXE075

J = RXE090

K = RXE110

L = RXE135

M = RXE160

N = RXE185

O = RXE250

P = RXE300

Q = RXE375

0.1

0.01

0.001

0.1

100

Fault current (A)

Raychem Circuit Protection Devices

RXE Devices 169

RXE

Radial Leaded

5. Verify ambient operating conditions.

Ensure that your application’s minimum and maximum ambient

temperatures are within the operating temperature range of –40°C

and 85°C.

Maximum device surface temperature in the tripped state is 125°C.

6. Verify the RXE device’s dimensions.

Using dimensions from the table below, compare the dimensions of the

RXE device you selected with the application’s space considerations.

Product dimensions (millimeters/inches)

Part

number

max.

typ.

min.

max.

typ.

RXE010

RXE017

RXE020

RXE025

RXE030

RXE040

RXE050

RXE065

RXE075

RXE090

RXE110

RXE135

RXE160

RXE185

RXE250

RXE300

RXE375

7.4 (0.29)

7.6 (0.30)

7.9 (0.31)

9.7 (0.38)

10.4 (0.41)

11.7 (0.46)

13.0 (0.51)

14.5 (0.57)

16.3 (0.64)

17.8 (0.70)

21.3 (0.84)

24.9 (0.98)

28.5 (1.12)

12.7 (0.50)

12.2 (0.48)

12.7 (0.50)

13.0 (0.51)

13.5 (0.53)

13.7 (0.54)

14.5 (0.57)

15.2 (0.60)

15.8 (0.62)

18.0 (0.71)

19.6 (0.77)

21.3 (0.84)

22.9 (0.90)

26.4 (1.04)

30.0 (1.18)

33.5 (1.32)

5.1 (0.20)

10.2 (0.40)

7.6 (0.30)

3.1 (0.12)

1.1 (0.04)

1.6 (0.06)

1.1 (0.04)

1.4 (0.06)

Lead size

RXE010–RXE090*

RXE110–RXE375**

RXE010–RXE090 Ø 0.51

(0.020)

24 AWG

Marking

RXE110–RXE375 Ø 0.81

(0.032)

20 AWG

* Straight leads are available.

** Kinked leads are available.

C C

L L

170 RXE Devices

Raychem Circuit Protection Devices

RXE

Radial Leaded

RXE Product Data

Now that you have selected your RXE device, please review the

device’s characteristics in this section to verify that the device will

perform as required.

Electrical characteristics (20°C)

Initial resistance

Post-trip resistance

R max.

Max. time

to trip (s)

Part

Number

P_d

R min.

R max.

(A)

at 5xI

(W)

( Ω )

4.50

5.21

2.75

1.95

1.33

0.86

0.77

0.48

0.40

0.31

0.25

0.19

0.14

0.12

0.08

0.06

0.05

( Ω )

7.50

8.00

4.40

3.00

2.10

1.29

1.17

0.72

0.60

0.47

0.38

0.30

0.22

0.19

0.13

0.10

0.08

RXE010

RXE017

RXE020

RXE025

RXE030

RXE040

RXE050

RXE065

RXE075

RXE090

RXE110

RXE135

RXE160

RXE185

RXE250

RXE300

RXE375

0.10

0.17

0.20

0.25

0.30

0.40

0.50

0.65

0.75

0.90

1.10

1.35

1.60

1.85

2.50

3.00

3.75

0.20

0.34

0.40

0.50

0.60

0.80

1.00

1.30

1.50

1.80

2.20

2.70

3.20

3.70

5.00

6.00

7.50

4.0

0.38

0.48

0.41

0.45

0.49

0.56

0.77

0.88

0.92

0.99

1.50

1.70

1.90

2.10

2.50

2.80

3.20

2.50

3.30

1.83

1.25

0.88

0.55

0.50

0.31

0.25

0.20

0.15

0.12

0.09

0.08

0.05

0.04

0.03

3.0

2.2

2.5

3.0

3.8

4.0

5.3

6.3

7.2

8.2

9.6

11.4

12.6

15.6

19.8

24.0

= Hold current—maximum current at which the device will not trip at 20°C.

= Trip current—minimum current at which the device will always trip at 20°C.

= Typical power dissipation—typical amount of power dissipated by the device when in tripped state in 20°C still air.

R min. = Minimum device resistance at 20°C prior to tripping.

R max. = Maximum device resistance at 20°C prior to tripping.

max. = Maximum device resistance at 20°C measured 1 hour post trip.

Physical characteristics

Lead material

RXE010: Tin coated nickel-copper alloy, 24 AWG, 0.51 mm/0.020 in

RXE017–040: Tin/lead-plated copper-clad steel, 24 AWG, 0.51 mm/0.020 in

RXE050–090: Tin/lead-plated copper, 24 AWG, 0.51 mm/0.020 in

RXE110–375: Tin-plated copper, 20 AWG, 0.81 mm/0.032 in

Solderability per MIL-STD-202, Method 208E

Soldering characteristics

Insulating material

Solder heat withstand per MIL-STD-202, Method 210, Condition B

Cured, flame-retardant epoxy polymer; meets UL 94V-O

requirements

Note: Devices are not designed to be placed through a reflow process.

Raychem Circuit Protection Devices

RXE Devices 171

RXE

Radial Leaded

Agency recognitions

File # E74889

CSA

File # CA78165C

Certificate # R9477354

TUV

Environmental specifications

Test

Test method

Conditions

Resistance change

Passive aging

Raychem PS300

70°C, 1000 hours

±5%

85°C, 1000 hours

±5%

Humidity aging

Thermal shock

Solvent resistance

Raychem PS300

85°C, 85% R.H., 1000 hours

125°C, –55°C (10 times)

MIL-STD-202, Method 215F

±5%

Raychem PS300

±5%

Raychem PS300, Method 215

No change

Component layouts

The dimensions in the table below provide the component layout for

each RXE device.

Component layout dimensions (millimeters/inches)

nom.

max.

Device

RXE010

RXE017

RXE020

RXE025

RXE030

RXE040

RXE050

RXE065

RXE075

RXE090

RXE110

RXE135

RXE160

RXE185

RXE250

RXE300

RXE375

5.1 (0.20)

10.2 (0.40)

1.0 (0.04)

1.7 (0.07)

1.0 (0.04)

1.2 (0.05)

1.5 (0.06)

1.2 (0.05)

1.5 (0.06)

1.7 (0.07)

2.0 (0.08)

172 RXE Devices

Raychem Circuit Protection Devices

RXE

Radial Leaded

Tape and reel specifications (dimensions in millimeters)

Product availability: RXE010–RXE185

Devices taped using EIA468–B/IEC286-2 standards. See table below and Figures 1 and 2 for details.

Dimensions

Dimension

description

EIA

mark

IEC

mark

Dim. (mm)

Tol. (mm)

Carrier tape width

–0.5/+1.0

min.

Hold down tape width

W₄

W₆

W₅

D₀

W₂

W₁

D₀

Top distance between tape edges

Sprocket hole position

max.

–0.5/+0.75

–0.32/+0.2

± 3.0

Sprocket hole diameter*

Abscissa to plane (straight lead)

Abscissa to plane (kinked lead)

Abscissa to top: RXE010-RXE090

Abscissa to top: RXE110-RXE185*

Overall width w/lead protrusion: RXE10-RXE90

18.5

H₀

H₁

C₁

H₀

H₁

± 0.5

32.2

37.6

43.2

46.6

1.0

max.

Overall width w/o lead protrusion: RXE135-RXE185* C₂

max.

Lead protrusion

L₁

I₁

max.

Protrusion of cutout

max.

Protrusion beyond hold-down tape

Sprocket hole pitch: RXE010-RXE090

Sprocket hole pitch*

l₂

Not specified

12.7

25.5

20 consec.

12.7

25.4

0.9

P₀

±0.3

±0.5

±1

Pitch tolerance

Device pitch: RXE010-RXE090

Device pitch: RXE110-RXE185

Tape thickness

max.

±0.3

Tape thickness with splice

Splice sprocket hole alignment

Body lateral deviation

t₁

2.0

∆h

∆p

P₁

∆h

∆p

P₁

±1.0

Body tape plane deviation

Ordinate to adjacent component lead*

Lead spacing*

±1.3

3.81

5.08

±1.0

±0.8

Reel width: RXE090-RXE135*

Reel width: RXE160-RXE185*

Reel diameter

w₂

max.

-3.25/+9.25

±12.0

max.

63.5

370

Space between flanges less device*

Arbor hole diameter

w₁

4.75

Core diameter*

Box

56/372/372

None

0.1% max.

Consecutive missing places

Empty places per reel

* Differs from EIA specification.

Raychem Circuit Protection Devices

RXE Devices 173

RXE

Radial Leaded

Figure 1: EIA Referenced Taped Component Dimensions

∆h

∆p

Reference plane

P₁

H₁

H₁C₁

C₂

H₀

W₅

W₄

I₂

D₀

P₀

Direction of unreeling

Cross section A - B

L₁

Figure 2: Reel Dimensions

Reel

Upper side

Tape

Direction

unreeling

Lower side

Cross section

Optional shape: Circular or polygonal

174 RXE Devices

Raychem Circuit Protection Devices

RXE

Radial Leaded

Ordering information

Product

description

Bag

quantity

Tape and reel

quantity

AMMO

pack

Standard

package

RXE010

500

10000

15000

10000

12500

7500

RXE010-2

RXE010-AP

RXE017

3000

2500

3000

1500

2000

1500

2000

1000

500

RXE017-2

RXE017-AP

RXE020

10000

15000

10000

15000

10000

15000

10000

15000

10000

15000

10000

15000

10000

15000

10000

15000

10000

7500

RXE020-2

RXE020-AP

RXE025

RXE025-2

RXE025-AP

RXE030

RXE030-2

RXE030-AP

RXE040

RXE040-2

RXE040-AP

RXE050

RXE050-2

RXE050-AP

RXE065

RXE065-2

RXE065-AP

RXE075

RXE075-2

RXE075-AP

RXE090

RXE090-2

RXE090-AP

RXE0110

RXE110-2

RXE110-AP

RXE135

5000

10000

7500

RXE135-2

RXE135-AP

RXE160

5000

10000

7500

RXE160-2

RXE160-AP

RXE185

5000

10000

7500

RXE185-2

RXE185-AP

RXE250

1000

5000

500

10000

RXE300

RXE375

* Consult factory

Raychem Circuit Protection Devices

RXE Devices 175

RXE

Radial Leaded

Part numbering system

RXE

suffix

Blank = Bulk packaged

- 2

= Tape and reel

- AP

- 1

= AMMO pack

= 25.4-mm (1.0 inch) minimum lead length

= Kinked leads

= Straight leads

Current rating

Part marking system

Part

description

Part

X 1 8 5

N K 8 C

Voltage rating

RXE010

RXE017

RXE020

RXE025

RXE030

RXE040

RXE050

RXE065

RXE075

RXE090

010

017

020

025

030

040

050

065

075

090

110

135

160

185

250

300

375

Raychem symbol

Part ID

Example

Product family (RXE)

Lot number/Date code RXE110

(may be on the back)

RXE135

RXE160

RXE185

RXE250

RXE300

RXE375

WARNING:

• Operation beyond maximum ratings or improper use may result in

device damage and possible electrical arcing and flame.

• These devices are intended for protection against occasional over-

current or overtemperature fault conditions, and should not be used

when repeated fault conditions are anticipated.

176 RXE Devices

Raychem Circuit Protection Devices

RXE030K [ETC]

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