CTX100-1P-R Coiltronics/Div of Cooper/Bussmann, CTX100-1P-R Datasheet - Page 4

CTX100-1P-R

Manufacturer Part Number

CTX100-1P-R

Description

INDUCTOR TOROID DUAL 99.01UH SMD

Manufacturer

Coiltronics/Div of Cooper/Bussmann

Series

Econo-Pac™r

Datasheet

1.CTX33-1P-R.pdf (8 pages)

Specifications of CTX100-1P-R

Inductance Per Coil

99.01µH

Number Of Coils

Current

270mA

Tolerance

±20%

Inductance - Connected In Series

396.06µH

Inductance - Connected In Parallel

99.01µH

Dc Resistance (dcr)

1.114 Ohm Max

Package / Case

0.450" L x 0.450" W x 0.164" H (11.43mm x 11.43mm x 4.19mm)

Mounting Type

Surface Mount

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

513-1036-2
CTX100-1P

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

CTX100-1P-R

Manufacturer:

COOPER

Quantity:

12 000

Current page: 4 of 8
Download datasheet (562Kb)

1) Open Circuit Inductance Test Parameters: 100kHz, 0.250 Vrms, 0.0 Adc

2) Peak current for approximately 30% roll-off

3) RMS current, delta temp. of 40° C ambient temperature of 85° C

4) DCR @ 20°C

P P a a r r t t N N u u m m b b e e r r

C C T T X X 0 0 . . 3 3 3 3 - - 1 1 A A - - R R

C C T T X X 0 0 . . 6 6 8 8 - - 1 1 A A - - R R

C C T T X X 1 1 - - 1 1 A A - - R R

C C T T X X 2 2 - - 1 1 A A - - R R

C C T T X X 5 5 - - 1 1 A A - - R R

C C T T X X 8 8 - - 1 1 A A - - R R

C C T T X X 1 1 0 0 - - 1 1 A A - - R R

C C T T X X 1 1 5 5 - - 1 1 A A - - R R

C C T T X X 2 2 0 0 - - 1 1 A A - - R R

C C T T X X 2 2 5 5 - - 1 1 A A - - R R

C C T T X X 3 3 3 3 - - 1 1 A A - - R R

C C T T X X 5 5 0 0 - - 1 1 A A - - R R

C C T T X X 6 6 8 8 - - 1 1 A A - - R R

C C T T X X 1 1 0 0 0 0 - - 1 1 A A - - R R

C C T T X X 1 1 5 5 0 0 - - 1 1 A A - - R R

C C T T X X 2 2 0 0 0 0 - - 1 1 A A - - R R

C C T T X X 3 3 0 0 0 0 - - 1 1 A A - - R R

C C T T X X 0 0 . . 3 3 3 3 - - 2 2 A A - - R R

C C T T X X 0 0 . . 6 6 8 8 - - 2 2 A A - - R R

C C T T X X 1 1 - - 2 2 A A - - R R

C C T T X X 2 2 - - 2 2 A A - - R R

C C T T X X 5 5 - - 2 2 A A - - R R

C C T T X X 8 8 - - 2 2 A A - - R R

C C T T X X 1 1 0 0 - - 2 2 A A - - R R

C C T T X X 1 1 5 5 - - 2 2 A A - - R R

C C T T X X 2 2 0 0 - - 2 2 A A - - R R

C C T T X X 2 2 5 5 - - 2 2 A A - - R R

C C T T X X 3 3 3 3 - - 2 2 A A - - R R

C C T T X X 5 5 0 0 - - 2 2 A A - - R R

C C T T X X 6 6 8 8 - - 2 2 A A - - R R

C C T T X X 1 1 0 0 0 0 - - 2 2 A A - - R R

C C T T X X 1 1 5 5 0 0 - - 2 2 A A - - R R

C C T T X X 2 2 0 0 0 0 - - 2 2 A A - - R R

C C T T X X 3 3 0 0 0 0 - - 2 2 A A - - R R

C C T T X X 0 0 . . 3 3 3 3 - - 3 3 A A - - R R

C C T T X X 0 0 . . 6 6 8 8 - - 3 3 A A - - R R

C C T T X X 1 1 - - 3 3 A A - - R R

C C T T X X 2 2 - - 3 3 A A - - R R

C C T T X X 5 5 - - 3 3 A A - - R R

C C T T X X 8 8 - - 3 3 A A - - R R

C C T T X X 1 1 0 0 - - 3 3 A A - - R R

C C T T X X 1 1 5 5 - - 3 3 A A - - R R

C C T T X X 2 2 0 0 - - 3 3 A A - - R R

C C T T X X 2 2 5 5 - - 3 3 A A - - R R

C C T T X X 3 3 3 3 - - 3 3 A A - - R R

C C T T X X 5 5 0 0 - - 3 3 A A - - R R

Parallel: (1,4 - 3,2) Series: (1 - 3) tie (2 - 4)

I I n n d d u u c c t t a a n n c c e e

R R a a t t e e d d

100.0

150.0

200.0

300.0

100.0

150.0

200.0

300.0

( ( µ µ H H ) )

0.33

0.68

10.0

15.0

20.0

25.0

33.0

50.0

68.0

0.33

0.68

10.0

15.0

20.0

25.0

33.0

50.0

68.0

0.33

0.68

10.0

15.0

20.0

25.0

33.0

50.0

1.0

2.0

5.0

8.0

1.0

2.0

5.0

8.0

1.0

2.0

5.0

8.0

n n o o m m i i n n a a l l

O O C C L L ( ( 1 1 ) )

+ + / / - - 2 2 5 5 % %

102.38

0.402

0.752

10.58

15.23

20.73

24.86

34.26

51.18

67.87

99.45

147.4

198.6

300.8

0.284

0.675

11.38

15.48

20.22

25.60

34.84

49.38

66.44

152.9

197.5

303.7

0.368

0.688

15.52

20.81

24.77

33.71

49.71

1.18

2.30

4.70

7.94

1.26

1.98

5.06

7.90

1.08

2.11

5.20

8.43

9.68

( ( µ µ H H ) )

A A m m p p e e r r e e s s

I I s s a a t t . . ( ( 2 2 ) )

P P e e a a k k

12.5

5.36

3.75

2.88

2.08

1.79

1.63

1.39

1.14

0.99

0.82

0.67

0.58

0.47

18.8

12.5

9.38

7.50

4.69

3.75

3.13

2.68

2.34

2.08

1.79

1.50

1.29

1.04

0.85

0.75

0.60

15.0

11.3

6.43

4.09

3.21

3.00

2.37

2.05

1.88

1.61

1.32

9.4

7.5

2.5

9.0

P P a a r r a a l l l l e e l l R R a a t t i i n n g g s s

I I r r m m s s . . ( ( 3 3 ) )

A A m m p p e e r r e e s s

10.0

7.26

5.64

4.27

3.37

2.84

2.07

1.71

1.46

1.22

0.99

0.92

0.74

0.67

0.62

0.56

10.9

8.22

6.74

4.34

3.50

2.89

2.69

2.24

1.89

1.56

1.28

1.07

0.75

0.68

0.64

0.58

11.4

8.38

7.26

5.24

4.23

3.64

3.25

2.43

2.34

1.93

1.56

9.0

9.4

9.3

D D C C R R Ω Ω ( ( 4 4 ) )

@ @ 2 2 0 0 ° ° C C . .

0.0037

0.0046

0.0070

0.0033

0.0045

0.0058

0.0090

0.0032

0.0048

0.0059

0.0079

0.012

0.020

0.033

0.046

0.087

0.127

0.173

0.249

0.381

0.437

0.686

0.832

0.963

1.181

0.021

0.032

0.047

0.054

0.078

0.111

0.162

0.240

0.342

0.695

0.842

0.950

1.174

0.015

0.023

0.032

0.039

0.071

0.076

0.112

0.171

m m a a x x . .

V V o o l l t t ( ( 7 7 ) )

µ µ - - S S e e c c

1.24

1.55

2.17

3.11

4.04

4.66

5.59

6.52

7.14

8.39

10.3

11.8

14.3

17.4

20.2

24.9

1.28

1.71

2.14

3.42

4.27

5.13

5.98

6.84

7.69

8.97

10.7

12.4

15.4

18.8

21.4

26.5

0.97

1.29

1.61

2.26

3.54

4.51

4.83

6.12

7.09

7.73

9.02

11.0

5) Hipot rating: winding to winding: 300Vdc min.

6) Turns Ratio: (1-2):(4-3) 1:1

7) Applied volt-time product (v-us) across the inductor. This value represents the

.93

.85

applied V-us at 300KHz necessary to generate a core loss equal to 10% of the

total losses for a 40°C temperature rise.

n n o o m m i i n n a a l l

O O C C L L ( ( 1 1 ) )

+ + / / - - 2 2 5 5 % %

102.38

Power Inductors and Transformers

31.77

42.30

60.91

82.91

99.45

137.1

204.7

271.5

397.8

589.6

794.3

20.22

31.60

45.50

61.94

80.90

139.4

197.5

265.8

409.5

611.8

790.0

20.81

33.77

38.70

62.09

83.25

99.07

134.8

198.8

1203

1215

( ( µ µ H H ) )

1.61

3.01

4.70

9.21

18.8

1.14

2.70

5.06

7.90

1.47

2.75

4.20

8.43

A A m m p p e e r r e e s s

I I s s a a t t . . ( ( 2 2 ) )

ECONO-PAC™/OCTA-PAC

P P e e a a k k

6.25

4.69

3.75

2.68

1.88

1.44

1.25

1.04

0.89

0.82

0.69

0.57

0.49

0.41

0.33

0.29

0.23

9.38

6.25

4.69

3.75

2.34

1.88

1.56

1.34

1.17

1.04

0.89

0.75

0.65

0.52

0.43

0.38

0.30

7.50

5.63

4.50

3.21

2.05

1.61

1.50

1.18

1.02

0.94

0.80

0.66

S S e e r r i i e e s s R R a a t t i i n n g g s s

I I r r m m s s . . ( ( 3 3 ) )

A A m m p p e e r r e e s s

4.98

4.48

3.63

2.82

2.13

1.69

1.42

1.03

0.86

0.73

0.61

0.49

0.46

0.37

0.33

0.31

0.28

5.47

4.68

4.11

3.37

2.17

1.75

1.45

1.35

1.12

0.94

0.78

0.64

0.54

0.38

0.34

0.32

0.29

5.72

4.64

4.19

3.63

2.62

2.12

1.82

1.63

1.22

1.17

0.96

0.78

OCTA-PAC

D D C C R R Ω Ω ( ( 4 4 ) )

@ @ 2 2 0 0 ° ° C C . .

0.0185

0.0282

0.0470

0.0132

0.0180

0.0233

0.0128

0.0194

0.0238

0.0317

0.015

0.082

0.130

0.183

0.348

0.507

0.693

0.995

1.524

1.749

2.745

3.329

3.854

4.726

0.035

0.084

0.129

0.188

0.218

0.313

0.443

0.649

0.961

1.367

2.778

3.366

3.800

4.697

0.061

0.093

0.126

0.158

0.282

0.306

0.449

0.686

m m a a x x . .

PLUS

V V o o l l t t ( ( 7 7 ) )

µ µ - - S S e e c c

1.86

2.49

3.11

4.35

6.21

8.08

9.32

11.2

13.0

14.3

16.8

20.5

23.6

28.6

34.8

40.4

49.7

1.71

2.56

3.42

4.27

6.84

8.55

10.3

12.0

13.7

15.4

17.9

21.4

24.8

30.8

37.6

42.7

53.0

1.93

2.58

3.22

4.51

7.09

9.02

9.67

12.2

14.2

15.5

18.0

21.9

CTX100-1P-R Coiltronics/Div of Cooper/Bussmann, CTX100-1P-R Datasheet - Page 4

CTX100-1P-R

Specifications of CTX100-1P-R

Available stocks

Related parts for CTX100-1P-R