High Power Wire Wound Resistor
Type TE Series
Key Features
Up to 2500W
Power rating in
free air
Flameproof
construction
–
UL94V coating
RoHS compliant
Custom
terminations /
leads available
Applications
Large electrical
and production
machinery
Load test
simulation
Motor start /
stop cycles
Dynamic braking
Equipment
discharge
TE Connectivity is a leading supplier of standard and custom-designed power
resistors for industrial, control and general- purpose applications.
The TE range of flameproof coated tubular ceramic core resistors use both
standard and edge wound (corrugated) winding methods to improve power
handling capability. Designed for heavy duty machinery, electrical equipment,
motor control etc. requiring stability and reliability.
Characteristics
–
Electrical
Power rating @70°C in free air
Resistance range
Selection series
Tolerance
Temperature Coefficient of
resistance
Operating temperature range
Short term overload
Dielectric strength
Insulation resistance
50W
–
2500W (see table)
See table
E12
±5% ±10%
< Ω±
PPM/°C
≥ Ω
±300PPM/°C
-55 ~ +155°C
3 x rated power / 5 seconds
2500VAC Min.
DC
V MΩ
min.
9-1773453-2 CIS WR 12/2016
Dimensions in
millimetres unless
otherwise specified
Dimensions Shown for
reference purposes only.
Specifications subject to
change
For Email, phone or live chat,
go to: www.te.com/help
High Power Wire Wound Resistor
Specifications
–
Electrical
Power
Rating
50W
60W
80W
100W
120W
150W
200W
300W
400W
500W
600W
750W
1000W
1200W
1500W
2000W
2500W
Resistance
Value
R10 ~ 2K7
R10 ~ 2K7
R10 ~ 2K7
1R0 ~ 2K7
1R0 ~ 2K7
1R0 ~ 2K7
1R0 ~ 9R1
10R ~ 2K7
1R0 ~ 9R1
10R ~ 2K7
1R0 ~ 15R
16R ~ 2K7
1R0 ~ 20R
21R ~ 2K7
1R0 ~ 20R
21R ~ 2K7
1R0 ~ 75R
76R ~ 2K7
1R0 ~ 100R
101R ~ 2K7
1R0 ~ 100R
101R ~ 2K7
1R0 ~ 120R
121R ~ 2K7
1R0 ~ 120R
121R ~ 2K7
1R0 ~ 120R
121R ~ 2K7
Tolerance
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±10%
±10%
±10%
±10%
±10%
±10%
±10%
±10%
±10%
±10%
±10%
±10%
±10%
±10%
±10%
±10%
±10%
±10%
±10%
±10%
±10%
±10%
±10%
±10%
±10%
±10%
±10%
±10%
Dielectric
Strength
500VAC
500VAC
500VAC
500VAC
500VAC
500VAC
300VAC
500VAC
300VAC
500VAC
300VAC
500VAC
300VAC
500VAC
300VAC
500VAC
300VAC
500VAC
300VAC
500VAC
300VAC
500VAC
300VAC
500VAC
300VAC
500VAC
300VAC
500VAC
Appearance
Smooth
Smooth
Smooth
Smooth
Smooth
Smooth
Ribbed
Smooth
Ribbed
Smooth
Ribbed
Smooth
Ribbed
Smooth
Ribbed
Smooth
Ribbed
Smooth
Ribbed
Smooth
Ribbed
Smooth
Ribbed
Smooth
Ribbed
Smooth
Ribbed
Smooth
Voltage rating:
Resistors shall have a rated direct-current (DC) continuous working voltage or
an approximate sine-wave root-mean-square (RMS) alternating-current (AC)
continuous working voltage at commercial line frequency and waveform
corresponding to the power rating, as determined from the following
formula:
RCWV = √P x R
Where : RCWV = Rated DC or RMS AC continuous working voltage at
commercial-line frequency and waveform (volt)
P = Power Rating (watt)
R = Nominal Resistance (ohm)
9-1773453-2 CIS WR 12/2016
Dimensions in
millimetres unless
otherwise specified
Dimensions Shown for
reference purposes only.
Specifications subject to
change
For Email, phone or live chat,
go to: www.te.com/help
High Power Wire Wound Resistor
Environmental Characteristics:
Characteristics
Temperature
Coefficient
Limits
<
≥
Ω:±
Ω:±
PPM/℃
Max.
PPM/℃
Max.
Test Methods
(JIS C 5201-1)
Natural Resistance change per temperature degree
centigrade.
R
-R
--------
x ⁶ PPM/°C
R t
-t
R : Resista ce alue at roo te perature t
R : Resista ce alue at roo te perature +
°C t
(Sub-clause 4.8)
Permanent resistance change after the application of a
potential of 3 x RCWV for 5 seconds
(Sub-clause 4.13
Direct load
:
Resistance to a 2.5 kgs direct load for 10 secs. in the
direction of the longitudinal axis of the terminal leads
Twist Test
:
Terminal leads shall be bent through 90 ° at a point of
about 6mm from the body of the resistor and shall be
rotated through 360° about the original axis of the bent
terminal in alternating direction for a total of 3 rotations
(Sub-clause 4.16)
The area covered with a new smooth, clean, shiny and
continuous surface free from concentrated pinholes.
Test temp. of solder : 245℃ ± 3℃
Dwell time in solder : 2 ~ 3 seconds
(Sub-clause 4.17)
Terminals immersed into solder bath to 3.2 ~ 4.8mm
from the body. Permanent resistance change shall be
checked.
Wave soldering condition (2 cycles max.)
Pre-heat : 100 ~ 120
℃,
30 ± 5sec.
Suggested solder temp.: 235 ~ 255
℃,
10 sec. (max.)
Peak temp.: 260
℃
Short term
overload
Terminal
Strength
± % + . Ω Max. ith o
evidence of mechanical
damage
No evidence of mechanical
damage
Solderability
95 % coverage Min.
Soldering Temp.
Reference
Electrical Characteristics shall
be satisfied without distinct
deformation in appearance.
(95% coverage Min.)
Resistance to
soldering heat
Load life in
humidity
Resistance change rate
± %+ . Ω ith o
evidence of mechanical
damage
Resistance change rate
±(5%+
. Ω Max. ith o
evidence of mechanical
damage
Resistance change rate
±(5%+
. Ω Max. ith o
evidence of mechanical
damage
Load Life
Hand soldering condition:
Hand Soldering bit temp. : 380 ± 10
℃
Dwell time in solder : 3 +1/-0 sec.
Permanent resistance change when terminals immersed
to 3.2 ~ 4.8mm from body in 350°C ±10°C solder for
3±0.5 seconds
Sub-clause 4.18
Resistance change after 1,000 hours (1.5 hours "on", 0.5
hour "off") at RCWV in a humidity test chamber
controlled at 40
℃±
2
℃
and 90 to 95 % relative
humidity
(Sub-clause 4.24.2.1)
Permanent resistance change after 1,000 hours
operating at RCWV with duty cycle of (1.5 hours "on",
0.5 hour "off") at 70℃ ± 2℃ ambient
(Sub-clause 4.25.1)
9-1773453-2 CIS WR 12/2016
Dimensions in
millimetres unless
otherwise specified
Dimensions Shown for
reference purposes only.
Specifications subject to
change
For Email, phone or live chat,
go to: www.te.com/help
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