PPSR24143519 - PILKOR Electronics Co., Ltd.

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PILKOR components

Carbon composition resistors SR25/37/37L/52

Dimensions ( mm )

TYPE D

0.8

L 1

0.8

L 2

Max.

d

(0.05)

SR25 2.7 6.5 7.5 0.6

SR37 3.7 9.0 12 0.7

SR37L 3.7 11 13 0.7

SR52 6.0 16.5 18.5 0.8

QUICK REFERENCE DATA

VALUE

DESCRIPTION

SR25 SR37 SR37L SR52

resistance range 10Ωto 9.1 ㏀

resistance tolerance 5%, 10% ( E12, E24 series )

temperature coefficient  600 ppm / ℃

rated dissipation

at Tamb = 70 ℃ 0.25 W 0.5 W 1 Ws 1W

max. working voltage 250 V 350 V 500 V 750 V

max. overload voltage 500 V 700 V 1000 V 1500 V

basic specifications IEC 60 115-1B

climatic category (IEC60) 55 / 155 / 56

stability, R/Rmax after

load : 1000 hours  5% 0.1Ω

soldering heat  3% 0.1Ω

FEATURES

 Non inductive

 High pulse loading capability.

APPLICATIONS

 Application for overload and high

voltage surge hazard circuits.

DESCRIPTION

A carbon film is deposited on a high

grade ceramic body. After that caps

are applied to the rods and copper

wire are welded to these end caps.

The resistors are coated with a brown

and blue non fl

ammable lacquer witch

provides electrical, mechanical and

climatic protection.

copper are welded to the end-caps.

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PILKOR components

Carbon composition resistors SR25/37/37L/52

ORDERING INFORMATION

Ordering code indicating resistor types and packing

Table 1

Type Bandolier

width Packing

Quantity

Resistance

range

Tol.

 % Ordering code

SR25

( 0.25W ) 52mm ammo 5000 10Ωto 9.1 ㏀ 5

10

PPSR 241 43xxx

PPSR 241 73xxx

Table 2

Type Bandolier

width Packing

Quantity

Resistance

range

Tol.

 % Ordering code

SR37

( 0.5W ) 52mm ammo 1000 10Ωto 9.1 ㏀

5

10

15

PPSR 242 33xxx

PPSR 242 15xxx

PPSR 242 22xxx

Table 3

Type Bandolier

width Packing

Quantity

Resistance

range

Tol.

 % Ordering code

SR37L

( 1Ws ) 64mm ammo 1500 10Ωto 9.1 ㏀ 5

10

PPSR 243 13xxx

PPSR 243 14xxx

Table 4

Type Bandolier

width Packing

Quantity

Resistance

range

Tol.

 % Ordering code

SR52

( 1W ) 64mm ammo 500 10Ωto 9.1 ㏀ 5

10

PPSR 250 11xxx

PPSR 250 14xxx

Table 5. Last digit of 12NC

Resistance decade

Last digit

1 to 9.76Ω 8

10 to 97.6Ω 9

100 to 976Ω 1

1 to 9.76 ㏀ 2

Ordering Example

The ordering code of a SR37- 0.5W resistor, value 4.7 ㏀ 10%, taped on a bandolier of

1000 units in ammopack is: PPSR 242 15472.

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PILKOR components

Carbon composition resistors SR25/37/37L/52

Limiting values

Table 6

TYPE LIMITING VOLTAGE( 1 )

(V)

LIMITING POWER

(W)

SR25 250 0.25

SR37 350 0.5

SR37L 500 1 (small)

SR52 750 1

Note

1. the maximum voltage that may be continuously applied to the resistor element, see

“IEC publication 60 115-1”

The maximum permissible hot – spot temperature is 155 ℃.

DERATING

The power that the resistor can dissipate depends on the operating temperature : Fig. 1

Fig. 1 Maximum dissipation (Pmax) in percentage of rated power as a function of the

ambient Temperature (Tamb)

50

100

-

55

50

70

100

155

0

T

amb

(

℃

)

P

max

( % )

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PILKOR components

Carbon composition resistors SR25/37/37L/52

Surge resistance characteristics

Fig. 2 Maximum allowed peak surge voltage in accordance with “IEC 60065 chapter

14.1” 50 discharges form a 1nF capacitor

charged to Vmax ; 12 discharges / minute

Application information

SR25 - 0.25W

%

0

-5

-10

-15

0 2KV 4KV 6KV 8KV 10KV 12KV 14KV

0.25W

1Ws

1W

Fig. 3 Hot – spot temperature rise (



T ) as

a function of dissipated power

Fig.4 Temperature rise (



T ) at the lead end

of the lead (soldering point) as a f

function of dissipated Power at various

lead lengths after mounting

0.5W

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PILKOR components

Carbon composition resistors SR25/37/37L/52

SR37 – 0.5W

SR37L – 1Ws

Fig. 5 Hot – spot temperature rise (



T ) as

a function of dissipated power

Fig.6 Temperature rise (



T ) at the lead end of

the lead soldering point as a function

of dissipated power at various lead

lengths after mounting

Fig. 7 Hot – spot temperature rise (



T ) as

a function of dissipated power

Fig.8 Temperature rise (



T ) at the lead end of

the lead soldering point as a function

of dissipated power at various lead

lengths after mounting

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PILKOR components

Carbon composition resistors SR25/37/37L/52

SR52 – 1W

MECHANICAL DATA

Table 7. Mass per 100 units

TYPE MASS ( g )

SR25 - 0.25W 25

SR37 - 0.5W 42

SR37L - 1Ws 67

SR52 - 1W 148

MARKING

The nominal resistance and tolerance are marked on the resistor using four or five colored

Bands in accordance with IEC publication 60 062 “color codes for fixed resistors”

Table 8. BODY COLORS

TYPE COLORS

SR25

– 0.25W Brown

SR37

– 0.5W Brown

SR37L

– 1Ws Brown

SR52

– 1W Blue

Fig.10 Temperature rise (



T ) at the lead end of

the lead soldering point as a function

of dissipated power at various lead

lengths after mounting

Fig. 9 Hot – spot temperature rise (



T ) as

a function of dissipated power

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PILKOR components

Carbon composition resistors SR25/37/37L/52

TEST AND REQUIREMENTS

Table 9. Test procedures and requirements

REQUIREMENTS

TEST PROCEDURE

SR25 SR37 SR37L SR52

robustness of

terminations:

tensile all

samples

bending half

number of

samples

torsion other

half number

samples

φ0.6 / 0.7 / 0.8 mm

: load 10N:10s

φ0.6 / 0.7 / 0.8 mm

: load 5N: 4x90

3x360in opposite

directions

number of failures < 10 -6

no damage

0.25%  0.05 

solderability 2 s ; 235℃ flux 600 good tinning; no damage

soldering heat Thermal shock: 3 s; 360℃

6mm from body  3% +0.1

rapid change of

temperature

30 minutes at –55℃ and

30 minutes at +155℃;5cycles

 2% +0.05

vibration

frequency 10 to 500 Hz;

displacement 1.5mm or

acceleration 10g; 3 directions

total 6 hours(3x2 hours)

no damage

 1% +0.05

Climatic sequence

dry heat

damp heat

(accelerated)

1st cycle

cold

low air pressure

damp heat

(accelerated)

remaining cycles

16 hours;155℃

24hours;55℃; 90 to 100% RH

2 hours; - 55℃

2 hours;8.5 Kpa; 15 to 35℃

5 days;55℃;95 to 100% RH

Rins min; 1000 ㏁

 2% + 0.05

damp heat 56 days; 40 ℃; 90 to 95% RH

dissipation 0.01 Pn  3% + 0.1

endurance 1000 hours at 70 ℃;

Pn or Vmax  5% + 0.1

temperature

coefficient between –55 ℃and +155 ℃  600 ppm/ ℃

dielectric

withstanding

voltage

500VRMS SR25

700VRMS SR37,SR37L and

SR52 during 1 min.

V- block method

no breakdown

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PILKOR components

Carbon composition resistors SR25/37/37L/52

TEST AND REQUIREMENTS

REQUIREMENTS

TEST PROCEDURE

SR25 SR37 SR37L

SR52

insulation

resistance

500VDC during 1 minute ;

V – block method min. : 1000 ㏁

short time

overload

rated voltage x 2.5

5 s on 45 s off ( V2 x Vmax)

10 cycles

 2.5% + 0.1

overload test rated voltage x 2.5

during 1 min.  10% + 0.1

high voltage

surge test

50 discharges from a 1 nF capacitor

charged to Vmax ;12 discharges / minute

SR25 SR37 SR37L SR52

10Ω-3.3 ㏀:

2 KV

10Ω-3.3 ㏀:

7 KV

3.6 ㏀-9.1 ㏀:

3 KV

3.6 ㏀-9.1 ㏀:

10 KV

10Ω- 9.1 ㏀:

10 KV

10Ω- 9.1 ㏀:

10 KV

no evidence of flash

over, mechanical

damage, arcing or,

insulation breakdown.

 10 % + 0.1

1000 pF

10KV

Switch

1

㏀

Circuits