Filter Inductors
Toroid
FEATURES
•Choice of encapsulated (TE) or dipped (TD) styles.
•TD style combines low cost with excellent performance in commercial
applications.
•High Q and wide selection of Q versus frequency ranges in one small package.
Large number of standard inductance values.
STANDARD ELECTRICAL SPECIFICATIONS (Applies to Core Only)
TC
AVAILABILITY
*Inverse of typical Temperature Coefficient of polystyrene capacitor.
MODEL
TE-2
TD-2
X
X
X
X
X
TE-3
TD-3
X
X
X
X
X
X
TE-4
TD-4
X
X
X
X
X
X
X
X
TE-5
TD-5
X
X
X
X
X
X
X
X
TC
CODE
TA
TB
TD
TE
TL*
TM
TR
TW
TEMPERATURE
COEFFICIENT
0 ± 1%
0 ± 0.1%
0 ± 0.1%
0 ± 0.15%
+ 40 to + 110PPM/°C
+ 85 to + 185PPM/°C
0 ± 0.25%
50PPM/°C (Typical)
0 ± 0.25%
Q4
X
X
X
X
X
X
X
Q3
X
X
X
X
X
Q0
X
TEMPERATURE
RANGE
- 55°C to + 125°C
+ 13°C to + 35°C
0°C to + 55°C
0°C to + 55°C
- 55°C to + 25°C
+ 25°C to + 85°C
- 65°C to + 125°C
- 65°C to + 125°C
- 55°C to + 85°C
INDUCTANCE RANGES
TE-5
TD-5
TE-4
TD-4
TC
CODE TE-2
TD-2 TE-3
TD-3
ELECTRICAL SPECIFICATIONS
Tolerance:
TE-2, TD-2 = ± 1% > 2mH, ± 2% = .05mH to 2mH.
TE-3, TD-3 = ± 1% > 2mH, ± 2% 154µH to 2mH,
± 5% < 150µH.
TE-4, TD-4 = ± 1% > 2mH, ± 2% < 2mH.
TE-5, TD-5 = ± 1% > 2mH, ± 2% < 2mH.
Insulation Resistance: 1000 Megohm minimum.
Dielectric Strength: 1000V minimum (TE).
500V minimum (TD).
MECHANICAL SPECIFICATIONS
Terminal Strength: 2 pounds pull test (TE).
Vibration: Per MIL-T-27 (TE).
Shock: Per MIL-T-27 (TE).
Weight:
TE-2 = 2 grams, TD-2 = 1.6 grams typical.
TE-3 = 5.1 grams, TD-3 = 4.9 grams typical.
TE-4 = 20 grams, TD-4 = 17 grams typical.
TE-5 = 53 grams, TD-5 = 52 grams typical.
MATERIAL SPECIFICATIONS
Coating: Vinyl (TD), non-flammable, abrasion and
moisture resistant. Resists most cleaning agents.
(Consult factory for chemicals which may be used.)
Standard Terminals: Tinned copper (TE).
Stranded, tinned copper, Teflon insulated (TD).
Encapsulant: Epoxy (TE).
Gauge:
TE-2 = 24 AWG, TD-2 = 30 AWG.
TE-3 = 22 AWG, TD-3 = 26 AWG.
TE-4 = 20 AWG, TD-4 = 24 AWG.
TE-5 = 20 AWG, TD-5 = 24 AWG.
TE
DIMENSIONAL CONFIGURATIONS
MODEL
TD
A Dia.
Max. D
B
Max. C
Min.
G
F
Dia.
E
[Numbers in brackets indicate millimeters]
GFEDCBA
A Dia.
Max.
B Max. F Min.
Dia.
.375 ± .125
[9.53 ± 3.18]
C Min.
Q0
Q3
Q4
40µH to 15mH
475µH to 120mH
1mH to 250mH
50µH to 15mH
500µH to 1H
1mH to 4H
150µH to 20mH
1mH to 2H
2mH to 5H
1mH to 100mH
5mH to 2H
10mH to 5H
.437
[11.10]
.437
[11.10]
.685
[17.40]
.685
[17.40]
1.06
[26.92]
1.06
[26.92]
1.32
[33.53]
1.32
[33.53]
.270
[6.86]
.250
[6.35]
.385
[9.78]
.320
[8.13]
.500
[12.70]
.437
[11.10]
.725
[18.42]
.688
[17.48]
1.0
[25.40]
2.0
[50.80]
1.0
[25.40]
3.0
[76.20]
1.0
[25.40]
4.0
[101.60]
1.0
[25.40]
6.0
[152.40]
.020
[.508]
—
.025
[.635]
—
.032
[.813]
—
.032
[.813]
—
.300
[7.62]
—
.500
[12.70]
—
.900
[22.86]
—
1.0
[25.40]
—
—
—
.093
[2.36]
.125
[3.18]
.120
[3.05]
.220
[5.59]
.144
[3.66]
.220
[5.59]
—
—
.250
[6.35]
—
.450
[11.43]
—
.500
[12.70]
—
TE-2
TD-2
TE-3
TD-3
TE-4
TD-4
TE-5
TD-5
Models TE and TD
Vishay Dale
Document Number 34078
Revision 13-Jul-00
www.vishay.com
140
DC RESISTANCE AND SELF-RESONANT FREQUENCIES (Typical Values)
SELF-RESONANT FREQUENCY
(MHz)
MODEL
TE-2, TD-2
TE-2, TD-2
TE-2, TD-2
TE-2, TD-2
TE-2, TD-2
TE-2, TD-2
TE-2, TD-2
TE-2, TD-2
TE-2, TD-2
TE-2, TD-2
TE-3, TD-3
TE-3, TD-3
TE-3, TD-3
TE-3, TD-3
TE-3, TD-3
TE-3, TD-3
TE-3, TD-3
TE-3, TD-3
TE-3, TD-3
TE-3, TD-3
TE-3, TD-3
TE-3, TD-3
TE-4, TD-4
TE-4, TD-4
TE-4, TD-4
TE-4, TD-4
TE-4, TD-4
TE-4, TD-4
TE-4, TD-4
TE-4, TD-4
TE-5, TD-5
TE-5, TD-5
TE-5, TD-5
TE-5, TD-5
TE-5, TD-5
TE-5, TD-5
TE-5, TD-5
TE-5, TD-5
TE-5, TD-5
INDUCTANCE
.05mH
.10mH
.332mH
.475mH
1.0mH
3.32mH
10.0mH
33.2mH
100.0mH
250.0mH
50.0µH
100.0µH
332.0µH
1.0mH
3.32mH
10.0mH
15.0mH
33.2mH
100.0mH
332.0mH
1.0H
4.0H
150.0µH
1.0mH
2.0mH
10.0mH
20.0mH
100.0mH
1.0H
2.0H
1.0mH
3.32mH
5.0mH
10.0mH
33.2mH
100.0mH
332.0mH
1.0H
2.0H
Q0
1.9
2.7
7.7
9.3
26.0
79.0
251.0
—
—
—
.68
1.0
3.3
6.9
24.0
84.0
106.0
—
—
—
—
—
.54
2.8
5.5
27.0
54.0
—
—
—
1.8
5.2
6.5
13.0
49.0
133.0
—
—
—
Q3
—
—
—
2.3
4.2
9.7
31.0
118.0
408.0
—
—
—
—
1.5
4.1
14.0
17.0
40.0
138.0
555.0
1500.0
—
—
.7
1.4
4.9
9.6
56.0
570.0
1200.0
—
—
1.8
2.4
8.8
27.0
80.0
222.0
475.0
Q4
—
—
—
—
2.3
5.4
18.0
54.0
227.0
450.0
—
—
—
.82
2.3
5.9
9.1
18.0
58.0
220.0
670.0
2700.0
—
—
.78
2.5
5.0
23.0
260.0
520.0
—
—
—
1.7
3.9
11.0
44.0
121.0
217.0
Q4
—
—
—
—
2.0
.95
.43
.21
.10
.05
—
—
—
1.0
.55
.25
.21
.12
.077
.038
.019
.009
—
—
.45
.18
.13
.051
.014
.011
—
—
—
.15
.086
.044
.024
.012
.008
Q3
—
—
—
2.4
1.2
.79
.40
.18
.06
—
—
—
—
1.1
.57
.29
.24
.14
.08
.04
.021
—
—
.75
.54
.21
.15
.059
.016
.013
—
—
.32
.20
.11
.057
.032
.016
.012
Q0
10.0
7.0
3.1
2.5
1.4
.70
.34
—
—
—
7.6
5.1
2.9
1.4
.79
.40
.34
—
—
—
—
—
2.6
1.0
.64
.24
.18
—
—
—
.80
.44
.33
.21
.12
.061
—
—
—
DCR
(Ohms)
The following standardization chart is offered
for your design and ordering convenience.
Each value listed is within one percent of the
preceding and succeeding values shown.
All decade multiples of these values, within the
range shown for each model in the chart, are
Vishay Dale standard values.
(Example: For a TE-2, 200µH, 20mH and
200mH are all decade multiples of 2.00 and
are all standard values.)
STANDARD INDUCTANCE VALUE
8.66
8.87
9.00
9.09
9.31
9.53
9.76
7.32
7.50
7.68
7.87
8.00
8.06
8.25
8.45
6.19
6.34
6.49
6.65
6.81
6.98
7.00
7.15
5.23
5.36
5.49
5.62
5.76
5.90
6.00
6.04
4.42
4.53
4.64
4.75
4.87
4.99
5.00
5.11
3.74
3.83
3.92
4.00
4.02
4.12
4.22
4.32
3.09
3.16
3.24
3.32
3.40
3.48
3.57
3.65
2.61
2.67
2.74
2.80
2.87
2.94
3.00
3.01
2.15
2.21
2.26
2.32
2.37
2.43
2.49
2.55
1.78
1.82
1.87
1.91
1.96
2.00
2.05
2.10
1.47
1.50
1.54
1.58
1.62
1.65
1.69
1.74
1.21
1.24
1.27
1.30
1.33
1.37
1.40
1.43
1.00
1.02
1.05
1.07
1.10
1.13
1.15
1.18
Models TE and TD
Vishay Dale
Document Number 34078
Revision 13-Jul-00 www.vishay.com
141
OBSOLETE
TE-2, TD-2 TE-3, TD-3
PERFORMANCE GRAPHS: INDUCTANCE vs DC BIAS, INDUCTANCE vs AC EXCITATION
TE-5, TD-5TE-4, TD-4
1 10 100 1000 10,000
INDUCTOR CURRENT IN mA x INDUCTANCE IN mH
0
- 5
- 10
- 15
- 20
- 25
% INDUCTANCE CHANGE
DC
EFFECT
Q3
Q4
Q3
Q4
AC
EFFECT
DC
EFFECT
Q0
0
- 5
- 10
- 15
- 20
- 25
DC
EFFECT
DC
EFFECT
AC
EFFECT
Q3
Q4
Q4
1 10 100 1000 10,000
INDUCTOR CURRENT IN mA x INDUCTANCE IN mH
Q0
Q3
% INDUCTANCE CHANGE
INDUCTOR CURRENT IN mA x INDUCTANCE IN mH
1 10 100 1000 10,000
0
- 5
- 10
- 15
- 20
- 25
DC
EFFECT
AC
EFFECT
Q4
Q4 Q3
Q0
DC
EFFECT
Q3
% INDUCTANCE CHANGE
0
- 5
- 10
- 15
- 20
- 25
DC
EFFECT
AC
EFFECT
DC
EFFECT
Q3
Q4
Q0
Q3
1 10 100 1000 10,000
INDUCTOR CURRENT IN mA x INDUCTANCE IN mH
Q4
% INDUCTANCE CHANGE
Models TE and TD
Vishay Dale
Document Number 34078
Revision 13-Jul-00
www.vishay.com
142
OBSOLETE
PERFORMANCE GRAPHS: TYPICAL Q vs FREQUENCY
TE-2, TD-2 TE-3, TD-3
110 100 1000 10,000
Q0
10
100
10
mH
3.3
mH
330
µH100
µH
50
µH
1
mH
“Q”
FREQUENCY - kHz FREQUENCY - kHz
10
Q0
100
1000
15
mH
3.3
mH
1
mH 330
µH50
µH
“Q”
10 100 1000 10,000
1
FREQUENCY - kHz
1 10 100 1000
Q3
10
100
.47
mH
1
mH
120
mH
100
mH 10
mH
“Q”
3.3
mH
33
mH
FREQUENCY - kHz
10
Q3
100
“Q”
1000
1 10 100 1000
1
H100
mH 10
mH 1
mH
10
“Q”
Q4
4
H100
mH 1
mH
10
mH
1
H
1 10 100 1000
FREQUENCY - kHz
100
1
1
Q4
10
“Q”
100
1 10 100 1000
FREQUENCY - kHz
3.3
mH
10
mH
33
mH
100
mH
250
mH
1
mH
Models TE and TD
Vishay Dale
Document Number 34078
Revision 13-Jul-00 www.vishay.com
143
OBSOLETE
PERFORMANCE GRAPHS: TYPICAL Q vs FREQUENCY
TE-4, TD-4 TE-5, TD-5
10
FREQUENCY - kHz
10 100 1000 10,000
Q0
100
1000
3.3
mH
10
mH
150
µH
1
mH
20
mH
“Q”
FREQUENCY - kHz
1 10 100 1000
Q0
100
1000
1
mH
10
mH
100
mH
“Q”
10
Q3
100
“Q”
1000
5
mH
2
H
10
100
mH
0.1 1 10 100
FREQUENCY - kHz
330
mH
10
FREQUENCY - kHz
Q3
100
100
mH 10
mH 1
mH
1
H
1 10 100 1000
1000
“Q”
Q4
100
1000
0.1 1 10 100
FREQUENCY - kHz
10
2
mH
10
mH
100
mH
7.5
H
“Q”
1
H
“Q”
Q4
FREQUENCY - kHz
1
H
100
mH
10
mH
20
H
10
100
1000
0.1 1 10 100
— Vishay Dale
— Model
— Q type
— TC code
— Inductance value
— Inductance tolerance
— Date code
PART MARKING
± 1%
INDUCTANCE
TOLERANCE
TE-5
MODEL 5mH
INDUCTANCE
VALUE
TR
TC CODE
Q0
Q TYPE
HOW TO ORDER
Models TE and TD
Vishay Dale
Document Number 34078
Revision 13-Jul-00
www.vishay.com
144
