TOKEN PWR06GTRC1W2201

TOKEN
PWR Pulse Withstanding Chip Resistors
Pulse Withstanding
Chip Resistors
Token (PWR) Pulse Withstanding Chip Resistors
Provide 50 Percent Increase in Power Dissipation
Preview
As electronic design engineers have increased the power density of their equipment, the demand for smaller
surface mount single-chip circuit protection resistors has also increased. Token developed the PWR Series
resistors to provide an economical alternative to bulky molded wirewound components or multi-chip solutions
while saving both PC board space and manufacturing costs.
To meet the increased demand for the PWR Series resistors, Token has developed a series of pulse withstanding
chip resistors with improved power ratings in reduced surface mounted sizes. Designated the PWR Series, the
chip resistors deliver up to 50 percent higher power ratings than conventional surface mount resistors - up to
1.5W in a standard 2512 size chip.
Token is able to boost this power rating up to 50 percent through a
combination of proprietary power film materials and advanced
manufacturing processes. The PWR Series Resistors are available
in four standard sizes (0805, 1206, 2010 and 2512) with power
ratings from 0.125W to 1.5W, and maximum operating voltage
ratings for 100V to 500V. Resistance range is from 10 Ω to
20 MΩ, with tolerance tight to 0.5 percent. The PWR meets
restriction of hazardous substances RoHS directive and RoHS
compliance.
Along with the increased power ratings, the PWR Series resistors also feature high surge and high voltage
ratings, making them extremely stable in demanding surge and pulse environments. The PWR Series chip
resistors are specified for use in power supplies, circuit protection devices, portable battery chargers, motor
controls and line-powered equipment.
Token will also produce devices outside these specifications to meet specific customer requirements, please
contact our sales for more information.
Features
Applications
- High Power Rating .
- Tolerance from ±0.5%~5%.
- Improved Working Voltage Ratings.
- Excellent Pulse Withstanding Performance.
- Standard Package sizes of 0805, 1206, 2010,
and 2512.
- Power Supplies, Diagnostic Equipment.
- Industrial Controls, LCD Video Monitors.
- Portable Battery Chargers, Medical Devices.
- Motor Controls and Line-Powered Equipment.
- Metering (Testing/Measurement), Circuit
Protection Devices .
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PWR Pulse Withstanding Chip Resistors
Dimensions (Unit: mm)
Marking
W
Protective Layer
L
D1
Sn Plating
Ni Plating
D1
Alumina Substrate
Thick Film Ni/Cr Conductor
Overcoat
T
Resistive Element
D2
Codes
PWR05 (0805)
PWR06 (1206)
PWR10 (2010)
PWR12 (2512)
L
2.00±0.15
3.05±0.15
5.00±0.20
6.30±0.15
W
1.25±0.15
1.55±0.15
2.45±0.15
3.10±0.15
T
0.55±0.10
0.55±0.10
0.60±0.15
0.55±0.10
D2
D1
0.30±0.20
0.50±0.30
0.60±0.30
0.60±0.30
D2
0.40±0.25
0.40±0.25
0.50±0.25
0.50±0.25
Resistance
Range
TCR
300Ω~20MΩ
±100PPM / °C
10Ω~299Ω
±200PPM / °C
20.1Ω~10MΩ
±100PPM / °C
10Ω~20Ω
±200PPM / °C
Standard Electrical Specifications
Type
Power
Ratingat 70°C
Operating
Temp. Range
Max
Operating
Voltage
PWR05
(0805)
0.125W
-55 ~ +155°C
150V
PWR06
(1206)
0.33W
-55 ~ +155°C
200V
PWR10
(2010)
0.75W
-55 ~ +155°C
400V
PWR12
(2512)
1.5W
-55 ~ +155°C
500V
Resistance
Tolerance
±0.5%
±1.0%
±2.0%
±3.0%
±5.0%
±0.5%
±1.0%
±2.0%
±3.0%
±5.0%
Recommend Land Pattern (Unit: mm)
C
B
Codes
PWR05 (0805)
PWR06 (1206)
PWR10 (2010)
PWR12 (2512)
02 of 07
A
A
1.00
2.00
3.60
4.90
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B
1.00
1.15
1.40
1.60
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C
1.35±0.2
1.70±0.2
2.50±0.2
3.10±0.2
Version 2010
TOKEN
PWR Pulse Withstanding Chip Resistors
Packaging Quantity & Reel Specifications (Unit: mm)
W
ΦB
ΦA
ΦC
T
Codes
ΦA
ΦB
ΦC
W
T
PWR05 (0805)
PWR06 (1206)
PWR10 (2010)
PWR12 (2512)
178.0±1.0
178.0±1.0
178.0±1.0
178.0±1.0
60.0±1.0
60.0±1.0
60.0±1.0
60.0±1.0
13.5±0.7
13.5±0.7
13.5±0.7
13.5±0.7
9.5±1.0
9.5±1.0
13.5±1.0
13.5±1.0
11.5±1.0
11.5±1.0
15.5±1.0
15.5±1.0
Paper Tape Emboss Plastic
(PCS)
Tape (PCS)
5,000
5,000
4,000
4,000
Emboss Plastic Tape Specifications (Unit: mm)
Top Tape
Φ D0
E
F
B
t
Resistor
Emboss Tape
Codes
PWR10
(2010)
PWR12
(2512)
A±0.10
Version 2010
B±0.10 W±0.10
A
E±0.10
P1
P2
P0
W
Φ D1=1.5min
direction of unreeling
F±0.05 P0±0.05 P1±0.10 P2±0.05 ΦD0+0.10 T±0.20
2.85
5.45
12.0
1.75
5.5
4.00
4.00
2.00
1.50
1.00
3.40
6.65
12.0
1.75
5.5
4.00
4.00
2.00
1.50
1.00
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TOKEN
PWR Pulse Withstanding Chip Resistors
Application & Soldering Notes
Today’s electronic devices are becoming smaller and smaller. The requirement, in particular, for pulse withstand
capability is growing due to the need to protect sensitive modern electronic systems.
To meet this demand Token Electronics have designed a Pulse Withstanding Chip Resistor (PWR Series). The
enhanced performance of the chips is made possible by the precise use of the best resistance inks and a closely
controlled production process.
Application Notes:
 Applications vary from line protection for telecommunications to surge withstanding resistors for use in
circuit breakers. Details of a typical telecomm and power supply application are given below.
 Telephone lines can be subjected to a large range of voltage disturbances, many of which can damage
switching equipment. This has led to the need for circuit protection against both high voltage transients,
usually of short duration caused by lighting strikes and overloads of longer duration, due to direct
connection to mains power lines.
 These two faults are separated into primary and secondary protection.
- Primary protection handles the high voltage transients, and is usually located within the exchange.
- Secondary protection is usually built into the equipment to be protected, and deals with both
current and voltage limiting.
 Voltage limiting prevents damage to the equipment and shock hazards, and current limiting prevents
damage to wiring.
 To determine the suitability of a PWC series chip resistors for your application refer to the pulse
withstanding data as given lighting surge performance using both 1.2/50μs and 10/700μs pulse shapes.
Soldering Notes:
 Electrical connection to a ceramic substrate or to a printed circuit board can be made by reflow or wave
soldering of wrap-around terminations.
 Wrap-around terminations provide good leach properties and ensure reliable contact.
 Due to the robust construction, the PWR can be immersed in the solder bath for 30 seconds at 260°C.
 This enables the resistor to be mounted on one side of a printed circuit board and wire-leaded components
applied on the other side.
 PWR resistors themselves can operate at a maximum temperature of 155°C.
 For soldered resistors, the joint temperature should not exceed 110°C.
 This condition is met when the stated power levels at 70°C and recommended pad and trace areas
are used.
 Allowance should be made if smaller areas of copper are used.
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Version 2010
TOKEN
PWR Pulse Withstanding Chip Resistors
Environmental Characteristics
Power Ration (%)
100
80
60
40
30
20
0
0
20
40
60 70 80 100
120 140
160 180
Ambient Temperature (°C)
Test Item
Short Time Overload
Specification
±0.5%
Thermal Shock
±0.5%
Temperature Coefficient of
Resistance
Load Life
As Spec.
Humidity (Steady State)
±0.5%
Resistance to Dry Heat
±0.5%
Low Temperature Operation
±0.5%
Bending Strength
As Spec.
Resistance to Soldering Heat
±0.5%
Solderability
95% min coverage
Dielectric Withstand Voltage
As Spec.
Insulation Resistance
>1000MΩ
±1%
Test Method
JIS-C-5202-5.5
RCWV*2.5 or Max Overloading Voltage, 5 seconds
MIL-STD-202F Method 107G
-55°C~150°C, 100 cycles
MIL-STD-202F Method 304
+25/-55/+25/+125/+25°C
MIL-STD-202F Method 108A RCWV, 70°C, 1.5
hours ON, 0.5 hours OFF,
total 1000~1048 hours
MIL-STD-202F Method 103B 40°C, 90~95%RH,
RCWV 1.5 hours ON,
0.5 hours OFF, total 1000~1048 hours
JIS-C-5202-7.2
96 hours @ +155°C without load
JIS-C-5202-7.1
1hour,-65°C followed by 45 minutes of RCWV
JIS-C-5202-6.1.4
Bending Amplitude 3mm for 10 seconds
MIL-STD-202F Method 210E
260±5°C, 10±1seconds
MIL-STD-202F Method 208H
245°C±5°C, 3±0.5(sec)
MIL-STD-202F Method 301
Apply Max Overload Voltage for l minute
MIL-STD-202F Method 302
Apply 100VDC for 1minute
Note: Storage Temperature: 25±3°C; Humidity: <80%RH
Version 2010
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05 of 07
TOKEN
PWR Pulse Withstanding Chip Resistors
Lightning Surge
10/700 us Lightning Surge
10000
Peak voltage (volts)
2512
2010
1000
1206
0805
100
10
1
10
100
100000
1000000 10000000
Test Condition:IEC 60115-1
1.2/50 us Lightning Surge
10000
Peak voltage (volts)
1000
10000
Resistance (ohms)
2512
2010
1206
0805
1000
100
10
1
10
100
1000
10000
Resistance (ohms)
100000
1000000 10000000
Test Condition:IEC 60115-1
Note: Lightning Surge Resistors are tested in accordance with IEC 60 115-1 using both 1.2/50us and 10/700 pulse.shapes.
The limit of acceptance is a shift in resistance of less than 1% from the initial value.
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Version 2010
TOKEN
PWR Pulse Withstanding Chip Resistors
How to Order
PWR
05
D
TR
C1
W
10R0
10R0








 Product Type
 Dimensions(L×W)
Code
05
06
10
12
 Power Rating
Dimensions(L×W)
2.00×1.25mm
3.05×1.55mm
5.00×2.45mm
6.30×3.10mm
EIA
0805
1206
2010
2512
 Resistance Tolerance
Code
D
F
G
H
J
Resistance Tolerance
±0.50%
±1%
±2%
±3%
±5%
 Packaging
Code
TR
P
Packaging
Taping Reel
Bulk
Power Rating
A
O
Q
T
U
V
W
1.5W
1/3W
3/4W
1W
1/2W
1/4W
1/8W
 Resistance
Code
1000
2201
1002
1003
Resistance
100Ω
2200Ω
10000Ω
100000Ω
 Marking
 TCR
Code
C1
C
Code
TCR
±100ppm
±200ppm
Code
N
Marking
Standard Marking for E96/E24
No Marking
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