TOKEN LRC12JTREAR010

TOKEN
Current
Sensing
Resistors
Chip Current Sense / Open-Air Current Shunts /
Axial Current Sense Resistors
Token Electronics Industry Co., Ltd.
Taiwan: No. 137, Sec. 1, Chung Shin Rd., Wu Ku Hsiang, Taipei Hsien, Taiwan, R.O.C
TEL: 886-2-2981 0109; FAX: 886-2-2988 7487
China:
12F, Zhongxing Industry Bld., Chuangye Rd., Nanshan District, Shenzhen, Guangdong
TEL: 86-755-2605 5363, 2605 5364; FAX: 86-755-2605 5365
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Product Index
Information
General Information ----------------------------------------------------------------------------- 01
Design & Selection ------------------------------------------------------------------------------ 03
Terminology & Glossary ----------------------------------------------------------------------- 05
Chip Current Sense Resistors
LRC Series - Current Sense Metal Strip Chip Resistors ---------------------------- 08
CS Series - Surface Mount Current Detecting Resistors ---------------------------- 13
TCS Series - Thin Film Current Sensing Chips -----------------------------------------21
Open-Air Current Shunts
LRA Series - Open Air Low Ohmic Resistors ------------------------------------------- 26
LRB Series - Open Air Low Inductance ----------------------------------------------------29
OAR Series - Open-Air Metal Element Current Sense --------------------------------32
FL Series - Current Shunt Resistors ------------------------------------------------------- 35
LSQ Series - Kelvin Four Terminal Resistors --------------------------------------------42
LRD Series - Open-Air Four Leads Resistors ------------------------------------------- 46
LPS Series - Low Ohm Current Sense for Shunts ------------------------------------- 49
Open-Air Current Shunts
BWL Series - Power Low Resistance Resistors ---------------------------------------- 52
NE Series - Low Ohmic Extra Precision Resistors ------------------------------------ 54
Notice: Specification Changed or Version Updated will be posted at irregular intervals.
All Updated and Final Specifications, Please Confirm with TOKEN ELECTRONICS
REPRESENITIVES.
:
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TOKEN
Information of Current Sensing Resistors
Information of
Current Sensing
Resistors
You Current Options - Token Current Sense
As the world becomes more and more technology-driven, the uses for current sensing resistors will
continue to increase. The need for even lower resistance value ranges is already becoming evident,
as is the need for these resistors to handle more power. The industry-wide trend is the emergence of
smaller and smaller products.
Token Electronics offers a wide variety of current sensing products from the industry to military
standards, such as current sense in Thin-Film / Thick-Film Technology, Bare Element Resistors,
and Open Air Shunts. This enables Token to present an astounding number of possible solutions
for any circuit design needs.
Applications of Current Detecting Resistors
Token’s TCS and CS Series unique form factor provides automotive designers with several
advantages. Both TCS and CS Series are ideal for applications involving window lift motors,
fuel pump systems, seat belt pretensioners, and pulsewidth modulator feedback.
The wider resistive element and lower resistance enables higher current to pass through the device.
Token’s LRC ultra low ohmic metal strip chip series provides the inherent ability to flex slightly and
offers stress relief during extreme temperature cycling on typical or metal substrates. This LRC series
is suitable for switch power supply applications (DC-DC Converter, Charger, Adaptor) and power
management of monitor.
The open air design of bare element resistor LRA and LRB Series provide a far cooler operation by
allowing more air flow under the resistive element to keep excess heat from being transmitted to the
PC board. They are suitable for high power AC/DC detection of power supply circuit.
Token axial moulded BWL series provides power rating up to 10 watts and lower resistance 0.005Ω,
is ideal for all types of current sensing applications including switching and linear power supplies,
instruments and power amplifiers.
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TOKEN
Information of Current Sensing Resistors
PDF Catalogue Download
Token standard current sensing resistors can be replacement for Vishay, IRC, Ohmite, KOA, Yageo devices
with fast delivery and more competitive price. Contact us with your specific needs. Download Low Ohmic
Current Sense Catalogue in PDF file (367KB).
Generally, a resistor manufacturer will offer their most popular devices as standards creating a
reference for Engineers to design from. Typically, and especially true in the Current Sensing category,
a standard device is available for most common applications. However, for applications requiring
parameters that are not currently considered industry standards, Token is uniquely equipped to offer
design and development services at comparatively lower costs than our competitors. In this case, the
following information is required to effectively design a current sensing resistor:
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Design & Select Current Sense Resistors
Design & Select
Current Sense
Resistors
Point 1 - Power Rating
Calculate the power dissipation under operating conditions
Equation: Pavg = IRMS2 × R; where Power (P), Current (I), Root Mean Square (RMS),
Resistance (R).Allowing for transient or fault conditions and high ambient temperature if applicable,
select the required power rating.For many current sense products, only the maximum temperature of
the solder joints limits the power rating.Power rating is thus a function of the PCB layout design as
well as of component selection (see point 4.).
Point 2 - Resistance Value
Determine the minimum suitable resistance value. This is the lowest value of peak sense voltage
consistent with an acceptable signal to noise ratio, divided by the peak current to be measured.
Point 3 - Temperature Coefficient of Resistance (TCR)
Establish the accuracy needed in terms of a tolerance on the value and of sensitivity to temperature.
The latter factor is quoted as Temperature Coefficient of Resistance (TCR), defined as the value
change in parts per million for a 1°C temperature rise. It is generally higher for low value resistors
because the metallic leads or terminations, which have a very high TCR, make up a significant part of
the total resistance value.
To achieve acceptable accuracy it is normally necessary to make four-terminal (Kelvin) connections
to the resistor. This means connecting the current carrying tracks and the voltage sense tracks directly
to the component pads. Even when this is done, there is still some pad area and solder in series with
the resistor, which may compromise the actual tolerance and TCR of the soldered part. For very high
accuracy or very low values, a four-terminal resistor type is the best choice.
Point 4 - PCB Layout
Care must be taken when laying out a PCB if the stated performance of a sense resistor is to be
achieved. The current carrying tracks should be as wide as possible, using multiple layers connected
by many vias near the component pad. This also improves the heatsinking of the joints.
The best way to make four-terminal connections to a two-terminal through-hole resistor is to use
different sides of the PCB for the current and voltage connections. Failing this, current and voltage
tracks should connect to opposite sides of the component pad.
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Design & Select Current Sense Resistors
In order to avoid interference from stray magnetic fields, the loop area contained by the sense resistor, the
voltage sense tracks and the sense circuit input should be minimised. This means keeping the sense
circuitry as close as possible to the sense resistor and running the voltage sense tracks close to each other.
Point 5 - High Frequency Applications
Where transient or AC currents involving high frequencies are to be sensed, the self-inductance of the
resistor must be minimised. Wirewound or spiralled film parts should be avoided, in favour of bulk metal
or low value chips.
Point 6 - High Heat Dissipation
When using a metallic element shunt with high heat dissipation and low sense voltage, consideration may
need to be given to thermoelectric voltages. The junction between a metallic resistance element and metal
terminations acts as a thermocouple, generating a voltage proportional to the temperature difference across
it.
A leaded metallic element sense resistor is therefore like two thermocouples back to back. This means that,
if the temperature differences across both junctions are equal, the error voltage is cancelled out. This is
achieved by making the design thermally symmetrical, namely, by presenting both terminals with similar
heatsinking and by keeping any other heat sources thermally distant.
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Terminology & Glossary
Terminology Glossary
of Current Sensing
Resistors
What is a Current Sensing Resistor
Current sensing products are the newest and fastest growing resistive products in the industry today.
As with most passive products, the majority of new designs are surface mount. These resistors are
used to monitor the current in a circuit and translate the amount of current in that circuit into a voltage
that can be easily measured and monitored.
Current Detecting Resistors
Due to the increase in sales of notebook PCs, the demand for the DC/DC converter has shown rapid
growth because of its high-energy conversion efficiency, and its precise current-limiting capability.
However, to ensure the performance of the multiple output DC/DC converter, the current limiting
voltage must be detected precisely to protect an expensive notebook PC from an overload, which is
generally due to shorts within the capacitors used in these devices.
For high-energy conversion efficiency various control ICs have been developed that utilize resistive
components. To achieve the perfect cutoff mode of the DC load current at the programmed
current-limiting voltage of the control IC, a very stable and accurate sense resistor with the
following characteristics is required for precise voltage comparison.
● Very Low Ohmic Value should be below 25mΩ for minimizing power consumption at the current
sensing resistor.
● Tight Tolerance must be ±1% or tighter for maximizing the current supply within the limit of
accept able current.
● Low TCR is required for current sensing across the ambient temperature range of 0°C to 60°C.
● Low Thermal EMF for an accurate comparison between the programmed current-limiting voltage
of the control IC and the detected voltage.
Furthermore, the self-inductance should be for high frequency applications. Recommended types are
general purpose current sensing products or a flame retardant type.
What is a Current Sensing Resistor
Current sensing products are the newest and fastest growing resistive products in the industry today.
As with most passive products, the majority of new designs are surface mount. These resistors are
used to monitor the current in a circuit and translate the amount of current in that circuit into a voltage
that can be easily measured and monitored.
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Terminology & Glossary
Current Detecting Resistors
Due to the increase in sales of notebook PCs, the demand for the DC/DC converter has shown rapid
growth because of its high-energy conversion efficiency, and its precise current-limiting capability. However, to ensure the performance of the multiple output DC/DC converter, the current limiting voltage must
be detected precisely to protect an expensive notebook PC from an overload, which is generally due to
shorts within the capacitors used in these devices.
For high-energy conversion efficiency various control ICs have been developed that utilize resistive components. To achieve the perfect cutoff mode of the DC load current at the programmed current-limiting
voltage of the control IC, a very stable and accurate sense resistor with the following characteristics is
required for precise voltage comparison.
● Very Low Ohmic Value should be below 25mΩ for minimizing power consumption at the current
sensing resistor.
● Tight Tolerance must be ±1% or tighter for maximizing the current supply within the limit of accept
able current.
● Low TCR is required for current sensing across the ambient temperature range of 0°C to 60°C.
● Low Thermal EMF for an accurate comparison between the programmed current-limiting voltage of
the control IC and the detected voltage.
Furthermore, the self-inductance should be for high frequency applications. Recommended types are general purpose current sensing products or a flame retardant type.
How Four Terminal Sense Resistor Work
High precision resistors used for current sensing are usually low ohmic value devices suitable for four
terminal connection. To use a 4-terminal resistor, we force a current from Terminal 1 to Terminal 2. It’s
current, so the unknown resistances attached to Terminal 1 and Terminal 2 don’t affect the amount of the
current. The same number of electrons per second flow through from T1 to T2, regardless of the resistance.
A voltmeter measures the resulting voltage drop across the ultra-precise resistor, measuring through the
unknown resistors attached to Terminal 3 and Terminal 4. The voltmeter’s input impedance is very, very
high compared to the unknown resistors, so the unknown resistors have essentially zero effect (typically
less than 0.1 parts-per-million).
So the current flows through the 0.100 ohm resistor, unaffected by the unknown resistors, and we measure
the voltage across the 0.100 ohm resistor, unaffected by the unknown resistors. And that’s how a 4-terminal
resistor works!
Vs
Voltmeter Measured
? ohm
Terminal 4
(Sense terminal)
? ohm
(Current terminal)
Terminal 1
? ohm
Terminal 3
(Sense terminal)
Rs
Known ohm
(Current terminal)
Terminal 2
? ohm
Current Is
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Terminology & Glossary
Flip Chip Resistor
An unencapsulated resistor chip on which bead-type leads terminate on one face to permit “flip” (face
down) mounting of the resistor chip by contact of the leads with interconnective circuitry.
Hot-Spot Temperature
The maximum temperature measured on the resistor due to both internal heating and the ambient operating
temperature.
Low Profile
Components designed with “lower than standard heights”, to save space and allow clearance when mounted on PCBs.
Maximum Working Voltage
The maximum specified voltage that may be applied across a resistor.
PPM
Parts per million. The terminology used when describing the temperature coefficient.
Screen
The process of printing a network pattern of thick-film ink or paste onto a substrate by means of a squeegee applied to a photo-etched wire-mesh “silk screen” or metal mask.
Current Shunt Resistors
Current shunt resistors are low resistance precision resistors used to measure AC or DC electrical currents
by the voltage drop those currents create across the resistance. Sometimes called an ammeter shunt, it is a
type of current sensor.
SMT/SMD
Surface-mount technology/surface-mount device.
Zero Ohm Resistors
Products that look like resistors, but actually have no resistance (very very low resistance) and instead
perform as jumpers.
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TOKEN
LRC Metal Strip Current Sense Resistors
Metal Strip
Current Sense
Chip Resistors
Ultra Low Ohm Resistor Save Space, Time,
and Money (LRC)
Preview
Providing design engineers with an economical low
ohmic value, current sense metal strip chip resistor
with high quality performance, Token Electronics
LRC Series is suitable for applications in the
automotive sector for applications that require high
power handling (Up to 3W) and low resistance 0.5mΩ.
From a certified supplier offering the automotive
quality, Token’s LRC Series gives all round superior
performance for current sensing in lamp detection,
mirrors, window lift, steering and seat controls.
As a first instance, the LRC Series displays enhanced
power handling capabilities, against other technologies.
Thermal conductivity is important for chip resistors - little heat is dissipated directly into the air, and instead, is
conducted out through the solder pads.
The heat generated from the specially constructed LRC resistor is more readily dispersed, therefore preventing
localised heating, which contributes to TCR and thermal EMF errors, premature aging and possible scorching of
the PC board.
They are rated for ambient operation from -55°C to +170°C.
The LRC Series is RoHS compliant and lead free. Contact us with your specific needs.
Features
Applications
- Low TCR ±50, ±100PPM/°C
- High Wattage Rating Up to 3W
- Customized Resistance Available
- Resistance Values from 0.5m ohms to 20m ohms
- Without Laser Trimmed with Very Low Inductance
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- For NB power management.
- For MB power management.
- For Monitor power management.
- SWPS: DC-DC converter, Charger,
Adaptor.
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LRC Metal Strip Current Sense Resistors
Low Ohmic (LRC) Construction
R001
Sn Solder Plated Metal
Barrier Layer (Ni)
R001
Overcoat
Alloy Plate
Overcoat
Alloy Plate
Solder Plating
Figure 1
Figure 2
SMD 2512, 2010, 1206 (LRC) Dimensions
D
L
T
Type
LRC12*T*0M50G
LRC12*T*0M75G
LRC12*T*R001G
LRC12*T*1M50G
LRC12*T***G
LRC12*T*R004G
LRC12*T***G
LRC12*T*R007G
LRC12*T***G
LRC12*T*0M50
LRC12*T*0M75
LRC12*T*R001
LRC12*T*1M50
LRC12*T*R002
LRC12*T*2M50
LRC12*T*R003
LRC12*T*R004
LRC12*T*R005
LRC12*T*R006
LRC12*T*6M50
LRC12*T*R007
LRC10*T***
LRC06*T***
Resistance (mΩ)
0.50
0.75
1.0
1.5
2.0~3.0
4.00
5.0~6.0
7.00
8.0~15
0.50
0.75
1.00
1.50
2.00
2.50
3.00
4.00
5.00
6.00
6.50
7.00
1.0~10
1.0~10
L(mm)
6.35±0.25
6.35±0.25
6.35±0.25
6.35±0.25
6.35±0.25
6.35±0.25
6.35±0.25
6.35±0.25
6.35±0.25
6.35±0.25
6.35±0.25
6.35±0.25
6.35±0.25
6.35±0.25
6.35±0.25
6.35±0.25
6.35±0.25
6.35±0.25
6.35±0.25
6.35±0.25
6.35±0.25
5.08±0.25
3.20±0.25
W
W(mm)
3.00±0.20
3.00±0.20
3.00±0.20
3.00±0.20
3.00±0.20
3.00±0.20
3.00±0.20
3.00±0.20
3.00±0.20
3.18±0.25
3.18±0.25
3.18±0.25
3.18±0.25
3.18±0.25
3.18±0.25
3.18±0.25
3.18±0.25
3.18±0.25
3.18±0.25
3.18±0.25
3.18±0.25
2.54±0.15
1.60±0.10
T(mm)
0.60±0.20
0.60±0.20
0.60±0.20
0.60±0.20
0.60±0.20
0.60±0.20
0.60±0.20
0.60±0.20
0.60±0.20
1.40±0.20
1.00±0.20
0.80±0.20
0.65±0.20
0.50±0.20
1.00±0.20
0.70±0.20
0.60±0.20
0.50±0.20
0.50±0.20
0.45±0.20
0.45±0.20
0.60±0.20
0.60±0.20
D(mm)
2.68±0.25
2.48±0.25
1.93±0.25
1.43±0.25
1.18±0.25
2.18±0.25
1.93±0.25
1.43±0.25
1.18±0.25
1.43±0.38
1.43±0.38
1.43±0.38
1.43±0.38
1.43±0.38
1.43±0.38
1.43±0.38
1.43±0.38
1.43±0.38
1.43±0.38
1.43±0.38
1.43±0.38
1.67±0.63
0.98±0.38
Notice : TOKEN is capable of manufacturing the optional spec based on customer’s requirement.
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TOKEN
LRC Metal Strip Current Sense Resistors
SMD 2512, 1206 (LRC) Standard Electrical Specifications
Type
LRC12*TK**
LRC12*TE**
LRC12*TW**
LRC12*TD**G
LRC12*TD**
LRC06*TD**
Power Rating
at 80°C
1W
1W
1W
1W
1W
1W
Operating Temp.
Range
-55°C ~ +170°C
Resistance
Tolerance (±%)
1, 3, 5
Resistance
(mΩ)
2.5~3.5
4.0~5.5
6.0~7.0
11.0~15.0
0.5~2.0
1.0~10.0
TCR
(±PPM/°C)
150
100
75
50
50
50
Resistance
(mΩ)
0.5~2.0
3.5
6.5~10.0
4.0~6.0
1.0~3.0
0.5~0.75
1.0~10.0
TCR (±PPM/
°C)
50
50
50
50
50
100
50
Remark : Operating Current I = √ ( P / R ) , Operating Voltage V = √ ( P * R )
SMD 2512, 2010 (LRC) High Power Rating Electrical Specifications
Type
LRC12*TDS*
LRC12*TDS*G
LRC12*TDS*G
LRC12*TDB*G
LRC12*TDR*G
LRC12*TER*G
LRC10*TDA*
Power Rating at
80°C
2.0W
2.0W
2.0W
2.5W
3.0W
3.0W
1.5W
Operating Temp.
Range
-55°C ~ +170°C
Resistance Tolerance (±%)
1, 3, 5
Remark : Operating Current I = √ ( P / R ) , Operating Voltage V = √ ( P * R )
Surface Mount Chips (LRC) Packing Quantity
Type
LRC12 (2512)
LRC10 (2010)
LRC06 (1206)
Emboss Plastic Tape
2,000
2,000
2,000
(LRC) Derating Curve
Power Ration (%)
100
80
60
40
20
0
0
20
40
60 70 80 100
120 140
160 180
Ambient Temperature (°C)
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LRC Metal Strip Current Sense Resistors
Surface Mount (LRC) Emboss Plastic Tape Specifications
Top Tape
Φ D0
E
F
B
T
A
Resistor
Emboss Tape
Size
LRC12
Resistance
(mΩ)
A
B
W
P1
E
F
P2
P0
P0
W
direction of unreeling
P1
P2
Φ D1
ΦD0
ΦD0
T
0.50~7
3.40±0.1 6.73±0.1 12.0±0.1 1.75±0.1 5.5±0.05 4.0±0.1 4.00±0.1 2.0±0.05
1.50±0.10
1.4min
0.81±0.1
0.50~15
3.40±0.1 6.75±0.1 12.0±0.1 1.75±0.1 5.5±0.05 4.0±0.1 4.00±0.1 2.0±0.05
1.55±0.05
1.4min
0.80±0.1
LRC10
1~10
2.85±0.1 5.55±0.1 12.0±0.2 1.75±0.1 5.5±0.05 4.0±0.1 4.00±0.1 2.0±0.05
1.55±0.05
1.4min
0.85±0.1
LRC06
1~10
1.90±0.1 3.60±0.1
1.55±0.05
1.0min
0.87±0.1
8.0±0.2
1.75±0.1 3.5±0.05 4.0±0.1 4.00±0.1 2.0±0.05
Notice: 1. The cumulative tolerance of 10 sprocket hole pitch is ±0.2mm.
2. Carrier camber shall be not more than 1mm per 100mm through a length of 250mm.
3. A & B measured 0.3mm from the bottom of the packet.
4. t measured at a point on the inside bottom of the packet to the top surface of the carrier.
5. Pocket position relative to sprocket hole is measured as the true position of the pocket and not the pocket hole.
Low Ohmic (LRC) Environmental Characteristics
Item
Specification
Black coating Green coating
Temperature Coefficient
of Resistance
As Spec.
Thermal Shock
±0.5%+0.5mΩ
±1%
Short Time Overload
±0.5%+0.5mΩ
±1%
Resistance to Dry Heat
±1%+0.5mΩ
±1%
Load Life
±1%+0.5mΩ
±1%
±0.5%+0.5mΩ
±1%
Resistance to Soldering
Heat
Solderability
95%min coverage
Test Method
MIL-STD-202 Method 304
+25/-30/+25/+130/+25°C
MIL-STD-202 Method 107G
-55°C~150°C, 100 cycles
JIS-C-5202-5.5
RCWV*2.5 or Max Overloading Voltage, 5 seconds
JIS-C-5202-7.2
96 hours @ +125°C without load
MIL-STD-202 M108
RCWV, 70°C, 1.5 hours on, 0.5 hours off 1000~1048
hours
MIL-STD-202F Method 210E
260±5°C, 10±1second
MIL-STD-202F Method 210E
260±5°C, 2±0.5second
Remark: Green coating can’t be work with wave soldering bath. Humidity < 80%RH; Storage Temperature: 25±3°C
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LRC Metal Strip Current Sense Resistors
How to Order
LRC
12
H
TR
D






R011
G


 Part Number
 Dimensions (L×W)
12
10
06
Code
EIA2512
EIA2010
EIA1206
 Power Rating
Dimensions (L×W)
6.3×3.1mm
Code
5.1×2.5mm
3.2×1.6mm
A
S
R
B
 Resistance Tolerance
Code
J
H
F
Resistance Tolerance
±5%
±3%
±1%
 Package
Code
TR
Packaging
Taping Reel
 TCR
Code
D
W
E
K
Power Rating
Standard (1W)
(1.5W)
(2W)
(3W)
(2.5W)
 Resistance
Code
0M50
0M75
1M50
R002
R010
Resistance
0.00050Ω
0.00075Ω
0.00150Ω
0.00200Ω
0.01000Ω
 Protective Coating
TCR
±50PPM /°C
±75PPM/°C
±100PPM /°C
±150PPM /°C
Code
G
**2010/1206
Packaging
Black Coating
Green Coating
No coating / marking
Back to 1st Page - Current Sense Metal Strip Chip Resistors (LRC)
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CS Current Detecting Chip Resistors
Surface Mount
Current Detecting
Chip Resistors
CS Surface Mount Current Detecting Resistors
Save Space and Weight
Preview
Token Electronics has launched the CS series, a family of ultra small low-value current-sense surface-mount
chip resistors. These smaller sizes save space on the circuit board, allowing the production of smaller and lighter
products.
The new series complements Token’s existing LRC Series, offering metal resistive film on ceramic construction
but providing increased choice for product designers in the form of more smaller sizes options of 0201, 0402,
0603, 0805, 1206, 2010, 2512, 1225, 3720, and 7520.
Designed for current detecting in power electronic systems, the fully RoHS compliant CS series is suitable for a
range of applications including the monitoring of power usage and battery life; and provision of output protection
for power supplies; as well as for a range of consumer and automotive products such as satellite navigation,
handheld PDAs and digital set-top boxes.
The series offers ohmic values as low as 1mΩ to minimise power consumption and has an ambient temperature
range of -55°C to +155°C.
Exhibiting a resistance range up to 1Ω and excellent heat dissipation qualities, the series offers designers
enhanced power handling capabilities and protection from the threat of localised heating, resulting in the
production of a more energy efficient product.
As demand continues to grow for reduced size, handheld and portable devices operating at low voltages,
designers will look to manufacturers to produce smaller and smaller current sense resistors. Token expects that
demand for its latest range of small size resistors will be high.
Contact us with your specific needs.
Features
- Low TCR ±50, ±100PPM/°C
- Resistance Values from 1mΩ to 1 Ω.
- 3W Power Rating in 1W size, 1225 Package.
- Long size Terminations with Higher Power Rating.
- High Purity Alumina Substrate for High Power Dissipation.
- Products with Pb-free Terminations Meet RoHS Requirments.
Applications
- Voltage Regulation Module (VRM).
- Portable Devices (PDA, Cell phone).
- Disk Driver, Switching Power Supply.
- Over Current Protection in Audio Application.
- DC-DC Converter, Battery Pack, Charger, Adaptor.
- Automotive Engine Control, Power Management Applications.
Version 2010
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TOKEN
CS Current Detecting Chip Resistors
Dimensions (Unit: mm)
0201/0402/0603/0805/1206/2010/2512
W
Marking
L
Protective Layer
D1
D1
T
D2
Sn Plating
1225/3720/7520
Ni Plating
Alumina Ceramic Substrate
R010
Overcoat
Thin Film Nicr Conductor
Type
D2
Metal Resistive Element
L
W
L (Unit: mm)
W (Unit: mm)
T (Unit: mm)
D1 (Unit: mm)
D2 (Unit: mm)
CS01 (0201)
0.58±0.05
0.29±0.05
0.23±0.05
0.12±0.05
0.15±0.05
CS02 (0402)
1.00±0.05
0.50±0.05
0.32±0.10
0.25±0.10
0.20±0.10
CS03 (0603)
1.60±0.10
0.80±0.10
0.45±0.10
0.30±0.20
0.30±0.20
CS05 (0805)
2.00±0.15
1.25±0.15
0.55±0.10
0.30±0.20
0.40±0.25
CS06 (1206)
3.05±0.15
1.55±0.15
0.55±0.10
0.50±0.30
0.40±0.25
CS13 (1210)
3.00±0.15
2.50±0.15
0.55±0.10
0.50±0.30
0.50±0.25
CS10 (2010)
5.00±0.20
2.45±0.15
0.60±0.15
0.60±0.30
0.50±0.25
CS12 (2512)
6.35±0.20
3.15±0.15
0.60±0.10
0.60±0.30
0.55±0.25
CS12 (2512)(2W)(10~99mΩ)
6.35±0.20
3.15±0.15
0.74±0.10
0.60±0.30
0.55±0.25
CS12 (2512)(2W)(100~1000mΩ)
6.35±0.20
3.15±0.15
0.74±0.10
0.60±0.30
2.70±0.10
CS25 (1225)
3.10±0.15
6.30±0.15
0.90±0.15
0.60±0.30
0.55±0.25
CS37 (3720)
2.00±0.20
3.75±0.20
0.60±0.10
0.40±0.20
0.40±0.20
CS75 (7520)
2.00±0.20
7.50±0.30
0.60±0.10
0.40±0.20
0.40±0.20
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CS Current Detecting Chip Resistors
Standard Electrical Specifications
Type
Power Rating
at 70°C
CS01 (0201)
1/20W
CS02 (0402)
1/16W
CS03 (0603)
1/10W
CS05 (0805)
1/8W
CS06 (1206)
CS13 (1210)
CS10 (2010)
CS12 (2512)
1/4W
1/2W
3/4W
1W
CS25 (1225)
3W
CS37 (3720)
1W
CS75 (7520)
Operating
Temp. Range
Resistance
Tolerance
±1%
±2%
±5%
-55 ~ +155°C
Resistance
Range
100mΩ~149mΩ
150mΩ~500mΩ
501mΩ~1000mΩ
50mΩ~100mΩ
101mΩ~500mΩ
501mΩ~1Ω
20mΩ~50mΩ
51mΩ~100mΩ
101mΩ~500mΩ
501mΩ~1Ω
20mΩ~50mΩ
51mΩ~100mΩ
101mΩ~500mΩ
501mΩ~1Ω
TCR
(PPM/°C)
±1000PPM/°C
±600PPM/°C
±300PPM/°C
±400PPM/°C
±300PPM/°C
±200PPM/°C
±600PPM/°C
±400PPM/°C
±300PPM/°C
±200PPM/°C
±600PPM/°C
±400PPM/°C
±300PPM/°C
±200PPM/°C
10mΩ~20mΩ
21mΩ~50mΩ
51mΩ~500mΩ
501mΩ~1Ω
±600PPM/°C
±400PPM/°C
±300PPM/°C
±200PPM/°C
3mΩ~5mΩ
6mΩ~20mΩ
21mΩ~30mΩ
31mΩ~200mΩ
±2%,±5%
2W
±1%,±2%,±5%
10mΩ~19mΩ
20mΩ~500mΩ
1mΩ~4mΩ
5mΩ~10mΩ
11mΩ~350mΩ
±300PPM/°C
±200PPM/°C
±150PPM/°C
±100PPM/°C
±200PPM/°C
±300PPM/°C
±150PPM/°C
±300PPM/°C
±200PPM/°C
±150PPM/°C
Note:Token has the ability to manufacture following options based on customer’s requirement.
Low TCR Electrical Specifications
Type
CS06*TRE**
CS13*TRE**
CS10*TRE**
CS12*TRE**
CS37*TRE**
CS75*TRE**
Version 2010
Power Rating
at 70°C
1/4W
1/2W
3/4W
1W
1W
2W
Operating Temp.
Range
Resistance
Tolerance
-55 ~ +155°C
http://www.token.com.tw/
±1%
±2%
±5%
Resistance Range
100mΩ~1000mΩ
100mΩ~1000mΩ
100mΩ~1000mΩ
20mΩ~1000mΩ
100mΩ~500mΩ
50mΩ~350mΩ
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TCR
±100PPM/°C
±100PPM/°C
±100PPM/°C
±100PPM/°C
±100PPM/°C
±100PPM/°C
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TOKEN
CS Current Detecting Chip Resistors
High Power Rating Electrical Specifications
Type
Power Rating
at 70°C
CS03*TR*W**
1/8W
CS05*TR*V**
1/4W 1/2W
CS06*TR*U**
CS13*TR*Q**
CS10*TR*T**
CS12*TR*A**
CS12*TR*S**
1/2W
3/4W
Operating Temp.
Range
Resistance
Tolerance
-55 ~ +155°C
1W
±1%
±2%
±5%
1.5W
2W
Resistance Range
TCR
51mΩ~100mΩ
101mΩ~500mΩ
501mΩ~1000mΩ
±400PPM/°C
±300PPM/°C
±200PPM/°C
10mΩ~20mΩ
21mΩ~50mΩ
51mΩ~500mΩ
501mΩ~1000mΩ
±600PPM/°C
±400PPM/°C
±300PPM/°C
±200PPM/°C
Power Derating Curve
Derating Curve
Power Ration (%)
100
80
60
40
20
0
0
20
40
60 70 80 100
120
140
160 180
Ambient Temperature (°C)
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Version 2010
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CS Current Detecting Chip Resistors
Environmental Characteristics
Item
Temperature Coefficient of
Resistance
Specification
As Spec
Test Method
MIL-STD-202F Method 304
+25/-55/+25/+125/+25°C
±(0.5% + 0.05Ω)
JIS-C-5202-5.5
ΔR±1% for high power rating RCWV*2.5 or Max Overloading Voltage 5seconds
MIL-STD-202F Method 301
Dielectric Withstand Voltage by Type
Apply Max Overload Voltage for l minute
MIL-STD-202F Method 302
Insulation Resistance
>1000MΩ
Apply 100VDC for 1minute
MIL-STD-202F Method 107G
Thermal Shock
±(0.5% + 0.05Ω)
-55°C~150°C, 100cycles
MIL-STD-202F Method 108A
Load Life
±(1% + 0.05Ω)
RCWV, 70°C, 1.5 hours on ,
0.5 hours off , 1000~1048 hours
MIL-STD-202F Method 103B
humidity (Steady State)
±(0.5% + 0.05Ω)
40°C, 90~95%RH, RCWV 1.5 hours ON,
0.5 hours OFF, total 1000 ~ 1048 hours
JIS-C-5202-7.2
Resistance to dry heat
±(0.5% + 0.05Ω)
96hours @ +155°C without load
Short Time Overload
Low Temperature Operation ±(0.5% + 0.05Ω)
Bending Strength
As Spec
Solderability
95%min coverage
Resistance to Soldering Heat ±(0.5% + 0.05Ω)
JIS-C-5202-7.1
1hour, -65°C followed by 45minutes of RCWV
JIS-C-5202-6.1.4
Bending Amplitude 3mm for 10seconds
MIL-STD-202F Method 208H
260°C±5°C, 2±0.5 (sec)
MIL-STD-202F Method 210E
260±5°C, 10±1 second
Note: Storage Temperature: 25±3°C; Humidity: <80%RH
(CS) Marking for 0603
Version 2010
Marking
Value
1R0
1.000Ω
R10
R01
101
035
0.100Ω
0.010Ω
0.101Ω
0.035Ω
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TOKEN
CS Current Detecting Chip Resistors
Except For CS12: High Power Rating Series Recommend Land Pattern
C
A
B
Codes
CS01
CS02
CS03
CS05
CS06
CS13
CS10
CS12
CS25
CS37
CS75
A
0.25
0.50
0.80
1.00
2.00
2.00
3.60
4.90
2.00
1.00
1.00
B
0.30
0.50
1.00
1.00
1.15
1.15
1.40
1.60
2.00
1.80
1.80
C
0.40±0.2
0.60±0.2
0.90±0.2
1.35±0.2
1.70±0.2
2.50±0.2
2.50±0.2
3.10±0.2
6.40±0.2
3.90±0.2
7.60±0.2
For CS12 High Power Rating Series Recommend Land Pattern
Codes
CS12
CS12
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Resistance Range
10~99mΩ
100~1000mΩ
A
4.90
1.00
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B
1.60
3.55
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C
3.10±0.2
3.10±0.2
Version 2010
TOKEN
CS Current Detecting Chip Resistors
Packing Quantity & Reel Specifications
W
øA
øB
øC
T
Type
ΦA
ΦB
ΦC
W
T
CS01
CS02
CS03
CS05
CS06
CS13
CS10
CS12
CS12(2W)
CS25
CS37
CS75
178.0±1.0
178.0±1.0
178.0±1.0
178.0±1.0
178.0±1.0
178.0±1.0
178.0±1.0
178.0±1.0
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
60.0±1.0
60.0±1.0
60.0±1.0
60.0±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
13.5±0.7
13.5±0.7
13.5±0.7
13.5±0.7
13.5±0.7
13.5±0.7
13.5±0.7
13.5±0.7
9.5±1.0
9.5±1.0
9.5±1.0
9.5±1.0
9.5±1.0
9.5±1.0
13.5±1.0
13.5±1.0
13.5±1.0
13.5±1.0
13.5±1.0
17.5±1.0
11.5±1.0
11.5±1.0
11.5±1.0
11.5±1.0
11.5±1.0
11.5±1.0
15.5±1.0
15.5±1.0
15.5±1.0
15.5±1.0
15.5±1.0
19.5±1.0
Paper
Tape(EA)
10,000
10,000
5,000
5,000
5,000
5,000
-
Emboss Plastic
Tape(EA)
4,000
4,000
2,000
2,000
2,000
2,000
Paper Tape Specifications
Bottom Tape
Top Tape
Φ D0
E
F
B
T
Paper Tape
A
Resistor
Type
A
B
W
E
CS01
0.40±0.05
0.70±0.05
8.00±0.10
CS02
0.70±0.05
1.16±0.05
8.00±0.10
CS03
1.10±0.05
1.90±0.05
CS05
1.60±0.05
2.37±0.05
CS06
2.00±0.05
CS13
2.75±0.05
Version 2010
P1
P2
W
direction of unreeling
P0
F
P0
P1
P2
ΦD0
T
1.75±0.05
3.5±0.05
4.00±0.10
2.00±0.05
2.00±0.05
1.55±0.05
0.42±0.02
1.75±0.05
3.50±0.05
4.00±0.10
2.00±0.05
2.00±0.05
1.55±0.05
0.40±0.03
8.00±0.10
1.75±0.05
3.50±0.05
4.00±0.10
4.00±0.10
2.00±0.05
1.55±0.05
0.60±0.03
8.00±0.10
1.75±0.05
3.50±0.05
4.00±0.10
4.00±0.10
2.00±0.05
1.55±0.05
0.75±0.05
3.55±0.05
8.00±0.10
1.75±0.05
3.50±0.05
4.00±0.10
4.00±0.10
2.00±0.05
1.55±0.05
0.75±0.05
3.40±0.05
8.00±0.10
1.75±0.05
3.5±0.05
4.00±0.10
4.00±0.05
2.00±0.05
1.55±0.05
0.75±0.05
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TOKEN
CS Current Detecting Chip Resistors
How to Order
CS
12
J
TR
G
A
R100
N








 Part Number
 Power Rating
 Dimensions (L×W)
Code
01
02
03
05
06
13
10
12
25
37
75
Dimensions (L×W)
0.58×0.29
0201
1.00×0.50mm
0402
1.60×0.80mm
0603
2.00×1.25mm
0805
3.10×1.55mm
1206
3.00×2.50
1210
5.00×2.50mm
2010
6.30×3.10mm
2512
3.10×6.30mm
1225
3.75×2.00mm
3720
7.50×2.00mm
7520
 Resistance Tolerance
Code
J
G
F
Resistance Tolerance
±5%
±2%
±1%
 Packaging
Code
TR
P
Code
S
A
T
Q
U
V
W
Power Rating
2W
1.5W
1W
3/4W
1/2W
1/4W
1/8W
 Resistance
Code
R010
R100
1R00
Resistance
0.01Ω
0.100Ω
1.000Ω
 Marking
Code
Resistance
N
Standard
No Marking
Packaging
Taping Reel
Bulk
 TCR
Code
E
K
F
G
H
J
R
TCR
±100ppm/°C
±150ppm/°C
±200ppm/°C
±300ppm/°C
±400ppm/°C
±600ppm/°C
±1000ppm/°C
Back to 1st Page - Surface Mount Current Detecting Resistors (CS)
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TCS Current Sense Chip Resistors
Thin Film
Current Sense
Chip Resistors
TCS Surface Mount Resistors Make Sense of Current
Preview
The trend towards smaller handheld and portable electronics equipment has also increased the need for ultra
small current sensing resistors. Devices from the Token Electronics’ TCS series use a thin film construction that
enables them to achieve precision resistance tolerances, low noise and long-term stability.
The Token TCS Series precision resistors are nichrome thin film chip resistors with a temperature coefficient of
resistance of just ±50PPM/°C and tolerances of ±0.5%.
They offer excellent stability at high frequencies and are suitable for operating high voltages with more options
in the smaller form sizes of 0402, 0603, 0402, 0805, 1206, 2010, and 2512.
The full range of values is from 50mΩ to 1Ω. This low ohmic devices are particularly suited to car engine
management units to act as current sensing shunt resistors.
The TCS series is fully RoHS compliant and is supplied in tape and reel packaging ready for use with automated
assembly processes.
Contact us with your specific needs.
Features
-
Thin Film Process.
Resistance Values from 50mΩ to 1Ω.
Very Tight Tolerance from ±1% to ±0.5%.
RoHS Requirments with Pb-free Terminations.
Extremely Low TCR from ±200 PPM/°C to ±50PPM/°C.
High Purity Alumina Substrate for High Power Dissipation.
Applications
-
Voltage Regulation Module (VRM),
Portable Devices (PDA, Cell phone),
Disk Driver, Switching Power Supply,
Over Current Protection in Audio Application,
DC-DC Converter, Battery Pack, Charger, Adaptor,
Automotive Engine Control, Power Management Applications
Version 2010
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TOKEN
TCS Current Sense Chip Resistors
Dimensions (Unit: mm)
Marking
W
L
Ni Plating
Alumina Ceramic Substrate
T
Overcoat
Thin Film Ni/cr Conductor
Type
TCS02
TCS03
TCS05
TCS06
TCS10
TCS12
D1
D1
Sn Plating
D2
Resistive Element
L
1.00±0.05
1.60±0.10
2.00±0.15
3.05±0.15
5.00±0.20
6.35±0.20
W
0.50±0.05
0.80±0.10
1.25±0.15
1.55±0.15
2.45±0.15
3.15±0.15
T
0.32±0.10
0.45±0.10
0.55±0.10
0.55±0.10
0.60±0.15
0.60±0.10
D1
0.25±0.10
0.30±0.20
0.30±0.20
0.50±0.30
0.60±0.30
0.60±0.30
D2
D2
0.20±0.10
0.30±0.20
0.40±0.25
0.40±0.25
0.50±0.25
0.55±0.25
Standard Electrical Specifications
Type
Power Rating
at 70°C
Resistance
Tolerance
Resistance
Range
TCR
(PPM/°C)
±0.5%
±1.0%
500mΩ~999mΩ
±100
±50
±0.5%
±1.0%
200mΩ~300mΩ
301mΩ~999mΩ
±100
±50
±1.0%
50mΩ~100mΩ
3/4W
±0.5%
±1.0%
1W
±0.5%
±1.0%
101mΩ~300mΩ
301mΩ~999mΩ
50mΩ~100mΩ
101mΩ~300mΩ
301mΩ~999mΩ
±200
±100
±50
TCS02 (0402)
1/16W
TCS03 (0603)
1/10W
TCS05 (0805)
1/8W
TCS06 (1206)
1/4W
TCS10 (2010)
TCS12 (2512)
Operating
Temp. Range
-55 ~ +155°C
±200
±100
±50
Note: Token has the ability to manufacture following options based on customer’s requirement.
High Power Rating Electrical Specifications
Type
TCS12 (2512)
22 of 56
Power Rating
at 70°C
3W
Operating
Temp. Range
-55 ~ +155°C
Resistance
Tolerance
±1.0%
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Resistance
Range
100mΩ~1Ω
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TCR
(PPM/°C)
±100
Version 2010
TOKEN
TCS Current Sense Chip Resistors
Power Derating Curve
Power Ration (%)
100
80
60
40
30
20
0
20
40
60 70 80 100
120 140
155
Ambient Temperature (°C)
Environmental Characteristics
Item
Temperature Coefficient of
Resistance
Short Time Overload
Specification
As Spec
±0.5%
Dielectric Withstand Voltage by Type
Insulation Resistance
>1000MΩ
Thermal Shock
±0.5%
Load Life
±1%
Humidity (Steady State)
±0.5%
Resistance to dry heat
±0.5%
Low Temperature Operation ±0.5%
Bending Strength
As Spec
Solderability
95%min coverage
Resistance to Soldering Heat ±0.5%
Test Method
MIL-STD-202F Method 304
+25/-55/+25/+125/+25°C
JIS-C-5202-5.5
RCWV*2.5 or Max Overloading Voltage 5seconds
MIL-STD-202F Method 301
Apply Max Overload Voltage for l minute
MIL-STD-202F Method 302
Apply 100VDC for 1minute
MIL-STD-202F Method 107G
-55°C~150°C, 100cycles
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
96hours @ +155°C without load
JIS-C-5202-7.1
1hour, -65°C followed by 45minutes of RCWV
JIS-C-5202-6.1.4
Bending Amplitude 3mm for 10seconds
MIL-STD-202F Method 208H
245°C±5°C, 2±0.5 (sec)
MIL-STD-202F Method 210E
260±5°C, 10±1 second
Note: Storage Temperature: 25±3°C; Humidity: <80%RH
Version 2010
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TCS Current Sense Chip Resistors
Marking for 0603
Marking
Value
1R0
1.000Ω
R10
R01
101
035
0.100Ω
0.010Ω
0.101Ω
0.035Ω
Packaging Quantity & Reel Specifications
W
øA
øB
øC
T
Type
ΦA
ΦB
ΦC
W
T
TCS02
TCS03
TCS05
TCS06
TCS10
TCS12
178±1
178±1
178±1
178±1
178±1
178±1
60.0+0.5
60.0+0.5
60.0+0.5
60.0+0.5
60.2±0.5
60.2±0.5
13.0±0.20
13.0±0.20
13.0±0.20
13.0±0.20
13.0±0.50
13.0±0.50
9.00±0.50
9.00±0.50
9.00±0.50
9.00±0.50
13.2±1.50
13.2±1.50
12.0±0.15
12.0±0.15
12.0±0.15
12.0±0.15
16.0±0.20
16.0±0.20
Paper
Tape
10,000
5,000
5,000
5,000
-
Emboss Plastic
Tape
4,000
4,000
Emboss Plastic Tape Specifications
Top Tape
Φ D0
E
F
B
t
Resistor
Emboss Tape
A
P1
P2
P0
W
Φ D1=1.4min
direction of unreeling
Type
A
B
W
E
F
P0
P1
P2
ΦD0
T
TCS10
2.85±0.10
5.45±0.10
12.0±0.10
1.75±0.10
5.5±0.05
4.00±0.05
4.00±0.10
2.00±0.05
1.50+0.10
1.00±0.20
TCS12
3.40±0.10
6.65±0.10
12.0±0.10
1.75±0.10
5.5±0.05
4.00±0.05
4.00±0.10
2.00±0.05
1.50+0.10
1.00±0.20
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rfq token.com.tw
Version 2010
TOKEN
TCS Current Sense Chip Resistors
Paper Tape Specifications
Bottom Tape
Top Tape
Φ D0
E
F
B
T
Paper Tape
A
Resistor
P2
P1
P0
W
direction of unreeling
Type
A
B
W
E
F
P0
P1
P2
ΦD0
T
TCS02
0.70±0.05
1.16±0.05
8.00±0.10
1.75±0.05
3.50±0.05
4.00±0.10
2.00±0.10
2.00±0.05
1.55±0.05
0.40±0.03
TCS03
1.10±0.05
1.90±0.05
8.00±0.10
1.75±0.05
3.50±0.05
4.00±0.10
4.00±0.10
2.00±0.05
1.55±0.05
0.60±0.03
TCS05
1.60±0.05
2.37±0.05
8.00±0.10
1.75±0.05
3.50±0.05
4.00±0.10
4.00±0.10
2.00±0.05
1.55±0.05
0.75±0.05
TCS06
2.00±0.05
3.55±0.05
8.00±0.10
1.75±0.05
3.50±0.05
4.00±0.10
4.00±0.10
2.00±0.05
1.55±0.05
0.75±0.05
How to Order
TCS
02
D
TR
E





06
13
10
12
25
37
75
Code
D
E
F
Dimensions (L×W)
0.58×0.29mm
0201
1.00×0.50mm
0402
1.60×0.80mm
0603
2.00×1.25mm
0805
3.10×1.55mm
3.00×2.50mm
5.00×2.50mm
6.30×3.10mm
3.10×6.30mm
3.75×2.00mm
7.50×2.00mm
1206
1210
2010
2512
1225
3720
7520

TCR
±50PPM/°C
±100PPM/°C
±200PPM/°C
Code
S
A
Power Rating
2W
1.5W
T
Q
U
V
W
1W
3/4W
1/2W
1/4W
1/8W
 Resistance
Resistance Tolerance
±5%
±2%
±1%
Code
R010
R100
1R00
 Packaging
Code
TR
P

 Power Rating
 Resistance Tolerance
Code
J
g
F
N
 TCR
 Part Number
 Dimensions (L×W)
Code
01
02
03
05

1R00
Resistance
0.010Ω
0.100Ω
1.000Ω
 Marking
Packaging
Taping Reel
Bulk
Code
N
Standard Marking
Standard
No Marking
Back to 1st Page - Chip Current Sense Resistors (TCS)
Version 2010
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rfq token.com.tw
25 of 56
TOKEN
LRA Low Ohmic Open Air Resistors
Low Ohmic
Open Air Resistors
Low Ohmic Open Air (LRA) Resistors
Feature Longer Thermal Path
Preview
Token’s current sense LRA open air resistors are expected to
gain wide acceptance in the worldwide market as a result of
increased thermal management capabilities.
The LRA Series is designed for applications requiring the
transfer of heat away from circuits and solder joints. Available in 0.5W, 1W, and 1.5W rating, the resistor is being
specified for current sensing, feedback, current detective,
supper low inductance, as well as surge and pulse applications.
The hot spot on the LRA resistor is approximately 0.2 degrees
higher than on a typical metal strip chip resistor. This results
in an increased thermal path for the LRA, reducing heat
transfer into the solder joints and circuits.
The flameproof LRA Series resistors are constructed of a wire resistive element with welded copper leads
to prevent solder wicking, which can change the device’s resistance value in the circuit by as much as 30%.
Because of this, the device is ideal for thermally harsh environments, including automotive and aerospace
applications, as well as enclosed, poorly ventilated circuits in applications such as laptop computers.
The LRA Open Air Series feature a reduced pitch, or spacing between the leads on the circuit board (with a
corresponding increase in the board mounted profile), when compared to the standard Token LRB Series devices.
The LRA resistors are rated for 1W or 1.5W at 70°C, with resistance values from 0.1Ω to 0.003Ω and tolerances
down to ±1%. Operating temperature range is -50°C to 300°C. The LRA Series is available in bulk packaging in
200 increments.
Token will also produce devices outside these specifications to meet customer requirements. A lead-free RoHScompliant version is available, as is a non-inductive version for high frequency applications. Contact us with
your specific needs.
Features
Applications
- Radial leads.
- Non-inductance.
- Solderable Copper Leads.
- Lead (Pb)-free and RoHS compliant.
- ±1%, ±3%, ±5%, ±10% standard tolerance.
- High stability bare metal element open air style.
26 of 56
http://www.token.com.tw/
- High power AC/DC detection.
- Automotive, Feedback System.
- Residual Battery Power Detection.
- Inverter and Switching Power Supplies
- CPU Drive Control, Power Tool Motor controls.
- Power Supply Shunt, Current Detective, and
Current Sensing.
rfq token.com.tw
Version 2010
TOKEN
LRA Low Ohmic Open Air Resistors
Dimensions (Unit: mm)
Marking
+0.5
M
M
RM
Φ0.8
Measuring Point
Type
LRA350-009
LRA351-009
LRA352-009
LRA351-010
LRA352-010
LRA352-010
LRA352-010
LRA352-011
3.5+1
Hmax
3 -1.5
0
10
H max.
6.5
10.5
17.0
8.0
14.5
16.1±1.0
17.1±1.0
12.0
RM
10
15
14.5±1.0
14.5±1.0
20
Construction: 1. The resistive elements consist of a flat metal-band.
2. Spot welded Cu-terminals ensure high stability of contacts.
3. Thus, this construction results in a non inductive of both high stability and overload capacity.
Packing Specification
Type
LRA350-009
LRA351-009
LRA351-010
LRA352-010
LRA352-011
Version 2010
Packaging
Bulk
Pieces
200pcs
Pack.-Code
Bulk
Bulk
200pcs
Bulk
Bulk
200pcs
Bulk
http://www.token.com.tw/
rfq token.com.tw
27 of 56
TOKEN
LRA Low Ohmic Open Air Resistors
Characteristic Specification
Type
LRA
350-009
W
Ω
0.5
R003~R051
Power rating P70
Resistance range
E-series
Tolerances
Temperature coefficient
Max. Cont. working voltage
%
PPM
VRMS
Insulation voltage (1min.)
VRMS
Insulation resistance
Derating, linear
Climatic category
Temperature range
Thermal resistance
°C
KW-1
max, 60% conf. lev.)
[
[
[
[
±3.0
±0.5
±0.5
±0.5
30
±0.2 typ.
2.5 Flow time, solder globule test
IEC 60068-2-20-T
Value imprinted
N
Solder ability
70
Ca.10, Depends on value
]%
]%
]%
]%
[
Non insulated
70~300(0W)
55/200/56
-50~300
100
200
10-9 * h-1
Endurance (P70, 70,1000h)
Damp heat ,steady state(40°C,93% r.h.,56d)
Climatic sequence
Terminal strength
Terminal tensile strengths
Resistance to soldering heat ( 260°C,10s )
1.0
R004~R068
E24≥R010
±1, ±3, ±5, ±10
+200~+1200
For all styles
352-009
352-010
352-011
1.5
R006~R10
Non insulated
Ω
°C
Failure rate (Total ,
351-009
351-010
]%
s
Making
How to Order
LRA351-009
R024
J
Bulk




 Part Number
 Tolerance
 Resistance Value (Ω)
Code
R020
R022
R024
R100
Resistance Value
0.020Ω
0.022Ω
0.024Ω
0.100Ω
Code
F
G
J
K
Tolerance
±1%
±2%
±5%
±10%
 Pack. -Code
Code
p
Bulk
Back to 1st Page - Low Ohmic Open Air Resistors (LRA)
28 of 56
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rfq token.com.tw
Version 2010
TOKEN
LRB Open Air Low Resistance Resistors
Open Air
Low Resistance
Resistors
Token’s Low Resistance, Low Inductance,
Open-Air Resistor is Alternative Shunts (LRB)
Preview
Developed for current sensing and shunt applications, Token’s LRB series of bare element resistors have a
precision alloys (Ni-Cu) element welded construction. Built-in stand-offs and standard spacings make for easy
mounting.
The bare metal element design allows for maximum cooling via airflow, forcing less heat into the PCB. The
flameproof construction offers values down to 2mΩ with low inductance. Customer can specify resistance range
designed to satisfy challenging and specific technical requirements.
These factors make the LRB Series an outstanding choice for all types of high current power supplies and
power applications requiring a robust part that is impervious to most environmental stresses. The device is ideal
for current limited, Current balance, and sampling sense in power supplier. It takes on the capability of high
overload, and the function easily welding and non inductance as well.
The LRB Series is available in bulk packaging and is RoHS compliant and lead free. For non-standard technical
requirements and special applications,
please contact us with your specific needs.
Applications
Features
- Low inductance.
- High stability open-air style.
- Precision alloys resistive element.
- Lead (Pb)-free and RoHS compliant.
- Standard tolerance ±3%, ±5%, ±10%.
- Radial leads, low resistance value 2 mΩ ~ 50 mΩ.
Version 2010
http://www.token.com.tw/
- CPU Drive Control.
- Power Tool Motor controls.
- Automotive, Feedback System.
- Inverter and Switching Power Supplies.
- Power Supply Shunt, Current Detective.
- Residual Battery Power Detection,
and Current Sensing.
rfq token.com.tw
29 of 56
TOKEN
LRB Open Air Low Resistance Resistors
Dimensions (Unit: mm)
Φ
H Ma x.
H Max.
Φ
L1
RM (mm)
5 ~ 50
H Max. (mm)
20
B Max.
L
L1
B Max.
L
B Max. (mm)
1
Ø (mm)
5 ~ 29
L1 (mm)
3±0.5
Specification
Type
Diameter Ø
(mm)
Rated Current
(A)
Resistance
Range (mΩ)
Tolerance (%)
Temperature
Coefficient
(ppm/°C)
Temperature
Range (°C)
LRB-05
LRB-06
LRB-07
LRB-08
LRB-09
LRB-10
LRB-11
LRB-12
LRB-13
LRB-14
LRB-15
LRB-16
LRB-18
LRB-20
LRB-23
LRB-25
LRB-29
0.5
0.6
0.7
0.8
0.9
1.0
1.1
1.2
1.3
1.4
1.5
1.6
1.8
2.0
2.3
2.5
2.9
2.5
3.0
4.0
4.5
5.0
5.5
6.0
7.0
7.5
8.0
9.0
9.5
11
12
14
17
21
20~50
20~50
20~50
20~50
10~50
10~30
5~20
5~20
5~20
5~20
5~20
5~15
3~10
2~8
2~8
2~5
2~5
±3%(H)
±5%(J)
±10%(K)
±50 ~ ±100
-55 ~ +85
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Version 2010
TOKEN
LRB Open Air Low Resistance Resistors
How to Order
LRB
08
05
R005
K





P

 Part Number: LRB
 Resistance Value (Ω)
 Diameter Ø
Code
05
06
07
08
09
10
11
12
13
14
15
16
17
18
20
23
25
29
Diameter Ø
0.5 mm
0.6 mm
0.7 mm
0.8 mm
0.9 mm
1.0 mm
1.1 mm
1.2 mm
1.3 mm
1.4 mm
1.5 mm
1.6 mm
1.7 mm
1.8 mm
2.0 mm
2.3 mm
2.5 mm
2.9 mm
Code
05
10
15
Resistance Value (Ω)
0.5 mm
10 mm
15 mm
 Tolerance %
Code
H
J
K
Tolerance %
±3%
±5%
±10%
 Package-Code
Code
P
Package-Code
Bulk
 Leads Pitch RM (mm)
Code
05
10
15
20
25
30
35
40
45
50
Leads Pitch RM (mm)
0.5 mm
10 mm
15 mm
20 mm
25 mm
30 mm
35 mm
40 mm
45 mm
50 mm
Back to 1st Page - Open Air Low Resistance Resistors (LRB)
Version 2010
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rfq token.com.tw
31 of 56
TOKEN
OAR Open Air Current Sense Resistors
Open Air
Current Sense Resistor
Token’s “tight pitch” version of its open air metal element
current sense resistor (OAR) need less PCB space.
Preview
In response to requests from power electronics design engineers
with the means to squeeze more current-sensing capability
into crowded power supply designs, Token Electronics has
developed a “tight pitch” version of its open air metal element
current sensing resistor with ratings as high as 5W in a
reduced PC board footprint and longer thermal path.
Designated the OAR Series, these open-air through-hole
devices offer a high current, flameproof alternative to
conventional axial devices and flat chips for current-sense
circuits where PC board space is at a premium. The resistor’s
footprint is reduced by extending the height of the device
above the board, thus keeping the resistor element’s “hot spot” safely off the PC board and providing for
increased air circulation under it, which in turn provides increased heat dissipation and cooler operation.
The OAR devices with increased height improve cooling efficiency, and because many power supply designs are
already tightly-packed at the PC board level, the additional height does not create any profile issues. The OAR
series resistors feature a reduced pitch, or spacing between the leads on the circuit board with a corresponding
increase in the board mounted profile.
The OAR Series resistors are power rated for 1W, 2W, 3W, or 5W at 85°C, with resistance values from 0.05Ω
to 0.005Ω, with tolerances down to ±1%. They feature TCRs as low as ±50ppm/°C and inductance values in the
single-digit nanohenry range (10 nH Max.). Operating temperature range is -40°C to +125°C. The flameproof
OAR resistors are constructed of a wire resistive element with welded copper leads to prevent solder wicking,
which can change the device’s resistance value in the circuit by as much as 30%.
The OAR Series is available in bulk packaging and is RoHS compliant and lead free. For non-standard technical
requirements and special applications,please contact us with your specific needs.
Features
Applications
- High stability open-air style.
- Precision alloys resistive element.
- Lead (Pb)-free and RoHS compliant.
- Standard tolerance ±1%, ±2%, ±5%.
- Low inductance. Solderable copper leads (60/40).
- Radial leads, low resistance value 0.05Ω ~ 0.005Ω.
32 of 56
http://www.token.com.tw/
- CPU Drive Control.
- Power Tool Motor controls.
- Automotive, Feedback System.
- Inverter and Switching Power Supplies.
- Power Supply Shunt, Current Detective.
- Residual Battery Power Detection,
and Current Sensing.
rfq token.com.tw
Version 2010
TOKEN
OAR Open Air Current Sense Resistors
Dimensions (Unit: mm)
On lo wer ranges stand-off may be
eliminated
NO TE :
Contact f actor y f or :
1. Va riations of ¡§A¡¨dimension.
2. Diff erent lead diameter
.
B
C
E
F
A
Type
Te st Po int (K elvin connection)
A±1
10
15
20
20
OAR-1
OAR-2
OAR-3
OAR-5
Dimensions (Unit: mm)
B±3
C±0.8
E±0.3
10
3.5
1.6
15
3.5
1.6
20
3.5
1.6
20
3.5
1.6
F±0.1
1.0
1.0
1.0
1.0
Specification
Power Rating
@ 85°C (W)
1
2
3
5
Type
OAR-1
OAR-2
OAR-3
OAR-5
Resistance Range
(mΩ)
R005~R05
R005~R05
R005~R05
R005~R01
Tolerance (±%)
Temperature Coefficient
TCR (ppm/°C)
Inductance (nH)
±1%
±2%
±5%
±50
10 Max.
Characteristic Specification
Test Items
Load Life
Moisture Test
Temperature Cycling
Operating Temperature
Version 2010
Test Method
1000 hours @ 25°C
no load for 1000 hours
-40°C to +125°C for 1000 cycles
http://www.token.com.tw/
Specification
ΔR/R < 1%
ΔR/R < 1%
ΔR/R < 1%
-40°C to +125°C
rfq token.com.tw
33 of 56
TOKEN
OAR Open Air Current Sense Resistors
How to Order
OAR
1
R01
J
P





 Part Number: OAR
 Rated power
Code
1
2
3
5
 Tolerance %
Rated power
1w
2w
3w
5w
Resistance Value (Ω)
±1%
±2%
±5%
G
J
 Package-Code
 Resistance Value (Ω)
Code
R005
R01
R05
Code
F
Resistance Value (Ω)
0.005Ω
0.01Ω
0.05Ω
Code
Resistance Value (Ω)
P
Bulk
Back to 1st Page - Open-Air Current Sensing Resistors (OAR)
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rfq token.com.tw
Version 2010
TOKEN
FL Current Shunt Resistors
Current Shunt
Resistors
Token’s Shunt Resistors (FL)
for high-current applications aid precision measurement.
Preview
Current shunt resistors are low resistance precision
resistors used to measure AC or DC electrical
currents by the voltage drop those currents create
across the resistance. Sometimes called an
ammeter shunt, it is a type of current sensor.
A wide range of precision shunts, designed for
use with kilowatt-hour meters and other
high-current applications where a high level
of accuracy is required, is now available from
Token Electronics.
The interchangeable shunts (FL) are used to
multiply the measuring range of measuring
instruments and designed for PCB and busbar mounting, are manufactured from electron beam welded copper
and manganin, and have low temperature coefficients. Featuring low inductance values, shunts FL series can
handle permanent currents of up to 10000A at voltage 75 mV.
FLQ-54 type shunt is made of precision alloy board. It’s copper terminals spot welded by silver alloy ensure
extremely high electric capability. The construction provides a kind of excellent stability and high overloaded
ability non-inductive resistor, applied widely as current limited, current balance or sampling sense in
communication system, electric equipment and auto-controlling electrical circuit.
The FL Series is available in bulk packaging and is RoHS compliant and lead free. For non-standard technical
requirements and special applications, please contact us with your specific needs.
Power Rating : Watts (W) = Current (I2) x Resistance Value (R)
- The heat produced is power measured in Watts (W).
- In practice current shunts are often rated to be used continuously at only 2/3 of their “rated current”.
- Because current shunts are resistors and dissipate heat from the current flowing through them, they get hot.
- Since that heat can change their resistance and even permanently damage the shunt, current shunts are often
given a power rating or a derating factor.
Calculate Current : Current (I) = Voltage (V) / Resistance Value (R)
- Then knowing the resistance of the current shunt you can calculate the current using Ohm’s law.
- By inserting a current shunt into a circuit whose current you want to measure your can find the current by
measuring the voltage drop across the shunt.
Version 2010
http://www.token.com.tw/
rfq token.com.tw
35 of 56
TOKEN
FL Current Shunt Resistors
FL-2 (5A-100A, Unit: mm)
d1
d
S
s
H
d2
d
2-Φ5
b
b
d1
c
c
a
a
5A ~ 50A
75A ~ 100A
Dimensions (Unit: mm)
Rating
Current (A)
a
c
b
5
10
15
20
30
50
75
100
120
120
120
120
120
120
104
104
100
100
100
100
100
100
85
85
20
20
20
20
20
20
22
22
36 of 56
c1
c2
H
S
d
d1
d2
15
15
15
15
15
15
22
22
5
5
5
5
5
5
10
10
30
30
30
30
30
30
40
40
42
42
42
42
42
42
53
53
60
60
60
60
60
60
http://www.token.com.tw/
High Current
Bolt (mm)-PC
(Option)
M5x6-2
M5x6-2
M5x6-2
M5x6-2
M5x6-2
M5x6-2
M8x35-2
M8x35-2
rfq token.com.tw
Shunt Voltage
Bolt (mm)-PC
(Option)
M5x6-2
Version 2010
TOKEN
FL Current Shunt Resistors
FL-2 Dimensions (150A-1000A, Unit: mm)
d1
c
d1
c
H
S
H
S
d2
d2
b
c1
b
c
a
c
150A ~ 600A
a
750A ~ 1000A
Dimensions (Unit: mm)
Rating
Current (A)
a
c
b
150
200
250
300
400
500
600
750
1000
116
116
126
126
126
126
126
126
126
85
85
100
100
100
100
100
100
100
22
22
26
26
38
45
62
76
95
Version 2010
c1
50
50
c2
H
S
d
d1
d2
22
22
22
22
22
22
22
22
22
6
6
6
6
6
6
6
6
6
30
30
40
40
40
40
40
40
40
39
39
49
49
49
49
49
49
49
54
54
64
64
64
64
64
64
64
http://www.token.com.tw/
High Current
Bolt (mm)-PC
(Option)
M8x35-2
M8x35-2
M10x35-2
M10x35-2
M10x35-2
M10x35-2
M10x35-2
M10x35-4
M10x35-4
rfq token.com.tw
Shunt Voltage
Bolt (mm)-PC
(Option)
M5x6-2
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TOKEN
FL Current Shunt Resistors
FL-2 Dimensions (1500A-10000A, Unit: mm)
d1
d
H
S
d2
c1
c1
b
c2
b
c1
c1
c
c
a
a
1500A ~ 3000A
Rating
Current (A)
1500
2000
2500
3000
4000
5000
6000
7500
10000
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4000A ~ 10000A
Dimensions (Unit: mm)
a
190
190
190
190
190
284
284
290
290
c
160
160
160
160
160
220
220
220
220
b
95
95
110
145
195
195
210
320
400
c1
50
50
50
2-50
2-50
2-50
2-50
3-50
3-50
c2
55
55
80
2-60
2-90
H
22
22
100
100
100
150
150
150
150
S
6
6
13
13
13
18
18
18
18
http://www.token.com.tw/
d
40
40
40
40
40
40
40
40
40
d1
52
52
52
52
52
52
52
52
52
d2
64
64
84
84
84
88
88
88
88
High Current
Bolt (mm)-PC
(Option)
Shunt Voltage
Bolt (mm)-PC
(Option)
M12x60-4
M12x60-4
M12x60-4
M12x60-6
M16x80-8
M16x80-8
M16x80-8
M16x80-12
M16x80-12
M5x6-2
rfq token.com.tw
Version 2010
TOKEN
FL Current Shunt Resistors
FL-13 Dimensions (30A-75A, Unit: mm)
2-Φ5
10
H
B
C
L
30A ~ 75A
Voltage (mV)
Rating Current (A)
75mV
75mV
75mV
30A
50A
75A
Version 2010
Dimensions (Unit: mm)
L
B
100
20
130
14
130
14
http://www.token.com.tw/
H
21
30
30
rfq token.com.tw
Mounting size (mm)
C
Bolt
85
M5
85
M8
85
M8
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TOKEN
FL Current Shunt Resistors
FL-13-A Dimensions (100A-1000A, Unit: mm)
H max.
L1
L1
3
1.4
L
L
B
FLQ54-C
Type
FLQ54-A
FLQ54-B
FLQ54-C
1.5
5.8
B
7.7
FLQ54-A
FLQ54-B
H max.
37
60
32
Dimensions (Unit: mm)
B
L
18
3
30
5
15
3
L1
3
5
3
Style of terminal
6
6
2
FLQ54 Technical Specifications (30A-100A)
Type
Rated Current (A)
FLQ54-A
FLQ54-A
FLQ54-A
FLQ54-B
FLQ54-B
FLQ54-B
FLQ54-C
FLQ54-C
30
50
60
60
75
100
30
60
40 of 56
Rated Voltage Nominal Resis- Accuracy Temperature
Drop (mV)
tance (mΩ)
Class
Range (°C)
50
50
50
50
50
50
45
45
http://www.token.com.tw/
1.6667
1.0000
0.8333
0.8333
0.6667
0.5000
1.5000
0.7500
0.5
rfq token.com.tw
-55 ~ +85
Temperature
Coefficient
(ppm/°C)
±25 ppm/°C
Version 2010
TOKEN
FL Current Shunt Resistors
Current Sunts (FL-2, FL-13, FL-13-A) Characteristic Specification
Test Items
Voltage Drop
Accuracy Class
Over Rating Capacity
Ambient Conditions
Specification
50mV, 60mV, 75mV, 100mV.
0.5 for 5~40000A; 1 for 5000~6000A
120% of rated current for 2 hours.
Temperature: -40~+60°C; relative humidity:≤95% 35°C
Giving Out Heat When Loaded
Not be more than 80°C after temperature rise gets steady;
not be more than 80°C at rated current of over 50A.
It is capable of withstanding the transport bumping at
acceleration of 70m/S2 and shock frequency of 80-20
times/min for 5 hours.
Capacity to Withstand Mechanical Force
How to Order
FL-2
5
P



 Part Number: FL-2, FL-13, FL-13-A, FLQ54-A, FLQ54-B, FLQ54-C
 Rating Current (A)
Code
5
10
200
750
Rating Current (A)
5A
10A
200A
750A
 Package-Code
Code
Package-Code
P
Bulk
Back to 1st Page - Current Shunt Resistors (FL)
Version 2010
http://www.token.com.tw/
rfq token.com.tw
41 of 56
TOKEN
LSQ Open Air Current Sense Resistors
Kelvin Four Terminal
Resistors
Token (LSQ) Family Four Terminal Resistors
handle high-wattage applications
Preview
Providing ultralow resistance values (to 0.01 ohm) for
relatively high current requirements, new four-terminal
cement filling resistors from Token combine the
advantages of a Kelvin configuration with PC board
mounting capability.
The Kelvin (or four-terminal) configuration enables
current to be applied through two opposite terminals and
a sensing voltage to be measured across the other two
terminals, eliminating the resistance and temperature
coefficient of the terminals for a more accurate current
measurement.
The four terminal resistors are a new version of Token’s (LSQ) Current Sense Family Series which was specially
designed for use in a Kelvin configuration where a current is applied through two opposing leads and sensing
voltage is measured across the other two leads. Token LSQ series is specifically designed for low resistance
applications requiring the highest accuracy and temperature stability.
The advantages of Kelvin configuration enable the resistance and temperature coefficient of the leads to be
effectively eliminated. The need to connect to the leads at precise test points is eliminated, allowing for tighter
tolerance on the end application. Also results in a lower temperature coefficient of resistance and lower
self-heating drift which may be experienced on two-terminal resistors.
Token will also produce low ohm resistor LSQ series outside these specifications to meet customer requirements.
Contact us with your specific needs.
Features
Applications
- Welded & fireproof construction.
- Superior anti-surge capability & Low TCR.
- Thermal conductivity and moisture resistance.
- Special inorganic potting construction provides
high moisture resistance and thermal conductivity.
- 4 leads for Kelvin connection with extremely
low resistance values.
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- Automatic Test Equipment.
- Current Sensing Application.
- High Precision Instrumentation.
- Industrial, Medical and Military.
- Measurement Instrumentation.
rfq token.com.tw
Version 2010
TOKEN
LSQ Open Air Current Sense Resistors
(LSQ-A) Specification & Dimensions (Unit: mm)
LSQ-A
L
W
H
P
Type
Power
(Watts)
Resistance
Range (Ω)
LSQ-A-3
LSQ-A-5
LSQ-A-7
LSQ-A-10
LSQ-A-15
3
5
7
10
15
R01~R1
R01~R1
R01~R1
R01~R1
R01~R1
L
22±1.0
22±1.5
35±2.0
48±2.0
48±2.0
d
Dimensions (Unit: mm)
W±1
H±1
8
8
9.5
9.5
9.5
9.5
9.5
9.5
12.5
12.5
P±1
14
14
25
36
36
d±0.5
0.8
0.8
0.8
0.8
0.8
(LSQ-B) Specification & Dimensions (Unit: mm)
LSQ-B
L
W
H
Φd
P1
P
Type
Power
(Watts)
Resistance
Range (Ω)
LSQ-B-5
5
R01~R1
Version 2010
L±2
26
http://www.token.com.tw/
W±1
5
Dimensions (Unit: mm)
H±1
P±1
10
20
rfq token.com.tw
P1±1
12
d±0.5
0.8
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TOKEN
LSQ Open Air Current Sense Resistors
(LSQ-C) Specification & Dimensions (Unit: mm)
LSQ-C
W
L
H
Φd
P1
P
Type
Power
(Watts)
LSQ-C-10
10
Resistance Dimensions (Unit: mm)
Range (Ω) L±2
W±1
H±1
R01~R1
18
10.5
20
P±1
12
P1±1
5
d±0.5
1.0
Power Derating Curve
Power Derating Curve
R at ed L oa d ( %)
120
100
80
60
40
20
0
-55
-25
25 40
75
125
175
225
275
Ambient Temperature (℃)
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Version 2010
TOKEN
LSQ Open Air Current Sense Resistors
Characteristic Specification
KELVIN ELECTRICAL CONNECTION
R
1
4
3
2
TERMINALS 2 & 3 CURRENT TRACES.
TERMINALS 1 & 4 SENSE TRACES.
Test Items
Resistance Tolerances
Temperature Coefficients
Operating Temperature Range
Maximum Working Voltage
Terminal Tensile Strength
Withstand Voltage
Short Time Overload
Thermal Shock
Load Life
Test Method
Specification
D(±0.5%), F(±1%), G(±2%), J(±5%)
±100 ppm/°C
-55°C~275°C
(P40°C x R)1/2
50N, 10s
ΔR≤±1.0%R
1000V, 1 Min.
No damage on the appearance.
5 times rated power, 5s
ΔR≤±4.0%R
-55°C~+275°C, 5 cycles, 30 min.
ΔR≤±5.0%R
40°C, 1000h 1.5 hours on, 0.5 hours off. ΔR≤±5.0%R
How to Order
LSQ-A
15
R01
J
P





 Part Number: LSQ-A, LSQ-B, LSQ-C
 Rated power
Code
3
5
7
10
15
 Tolerance %
Rated power
3 Watt
5 Watt
7 Watt
10 Watt
15 Watt
Code
Tolerance %
J
±5%
 Package-Code
Code
Package-Code
P
Bulk
 Resistance Value (Ω)
Code
R01
R05
R1
Resistance Value (Ω)
0.01Ω
0.05Ω
0.1Ω
Back to 1st Page - Kelvin Four Terminal Resistors (LSQ)
Version 2010
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rfq token.com.tw
45 of 56
TOKEN
LRD Open Air Four-terminal Resistors
Open Air Four-terminal
Resistors
Token’s Open Air Four-terminal resistors (LRD)
tackle current sensing applications
Preview
Always preferred in current sense applications,
Token’s LRD Series range is available in the
1W, 3W, 5W, 7W and 10W packages,
resistance values down to 0.001 ohm,
with tolerances as tight as 0.50% and
TCRs of 50ppm standard.
The Kelvin (four-terminal) configuration
enables current to be applied through two
opposite terminals and a sensing voltage to
be measured across the other two terminals,
eliminating the resistance and temperature
coefficient of the terminals for a more accurate
current measurement.
With up to 10W power rating and TCRs as low as 50ppm/°C, the LRD Series resistors deliver excellent
performance, making them ideal for a variety of applications. The resistor is constructed using a low-resistance,
low-inductance, high-impulse proprietary metal element that gives the device its extended power and temperature
ratings.
Continually upgrading its resistors to take advantage of modern technologies and manufacturing methods, Token
is now able to offer complete ranges of products which meet the RoHS requirements and in addition to detailing
these, the component selector also provides designers with a comprehensive selection of application notes.
The LRD devices can be manufactured to custom length/width for use as a current shunt. Token will also produce
outside these specifications to meet customer requirements. Contact us with your specific needs.
Features
Applications
- Low inductance.
- 4 leads for Kelvin connection.
- Decimal marked, silicone coated.
- Tinned copper terminal for easy soldering.
- Radial, self-supporting, design is ideal
for PC board mounting.
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- Surge/Pulse Applications.
- Current Sensing Application.
- Feed Back & Motor Control.
- High Precision Measurement Instrumentation.
rfq token.com.tw
Version 2010
TOKEN
LRD Open Air Four-terminal Resistors
Specification & Dimensions (Unit: mm)
LSQ-A
L
W
H
P
Type
LRD-1
LRD-3
LRD-5
LRD-7
LRD-10
Rating Wattage
1W
3W
5W
7W
10W
d
Resistance Range (mΩ)
1 ~ 10 mΩ
1 ~ 10 mΩ
0.5 ~ 5 mΩ
0.3 ~ 3 mΩ
0.1 ~ 1 mΩ
Tolerance (%)
D(±0.5%)
F(±1%)
G(±2%)
J(±5%)s
TCR (ppm/°C)
±50 ppm/°C
±100 ppm/°C
Power Derating Curve
Power Derating Curve
Rated Load (%)
120
100
80
60
40
20
0
-55 -25
25 40
70
125
175
Ambient Temperature (℃)
Version 2010
http://www.token.com.tw/
rfq token.com.tw
47 of 56
TOKEN
LRD Open Air Four-terminal Resistors
Characteristic Specification
KELVIN ELECTRICAL CONNECTION
R
1
4
3
2
TERMINALS 2 & 3 CURRENT TRACES.
TERMINALS 1 & 4 SENSE TRACES.
Test Items
Operating Temperature Range
Maximum Working Voltage
Terminal Tensile Strength
Withstand Voltage
Short Time Overload
Thermal Shock
Load Life
Test Method
Specification
-55°C ~ 125°C
(P40°C x R)1/2
50N, 10s
ΔR≤±1.0%R
1000V, 1 Min.
No damage on the appearance.
5 times rated power, 5s
ΔR≤±4.0%R
-55°C~+125°C, 5 cycles, 30 min.
ΔR≤±5.0%R
70°C, 1000h 1.5 hours on, 0.5 hours off. ΔR≤±5.0%R
How to Order
LRD
5
R005
F
P





 Part Number: LRD
 Rated power
Code
1
3
5
7
10
 Tolerance %
Rated power
1 Watt
3 Watt
5 Watt
7 Watt
10 Watt
R05
R1
Tolerance %
D
F
G
J
±0.5%
±1%
±2%
±5%
 Package-Code
 Resistance Value (Ω)
Code
R005
Code
Resistance Value (Ω)
Code
Package-Code
P
Bulk
0.005Ω
0.05Ω
0.1Ω
Back to 1st Page - Open Air Four-terminal Resistors (LRD)
48 of 56
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Version 2010
TOKEN
LPS Low Ohm Current Sensing Resistors
Low Ohm
Current Sensing
Resistors
Token (LPS) Family Offers A Variety of
Possibilities for Shunt-Resistors
Preview
Token’s current sense LPS family for shunt-resistors is
expected to gain wide acceptance in the worldwide market
as a result of offering a variety of possibilities.
The U-shaped semi-customized LPS family for direct board
mounting is specified for current sensing, feedback, current
detective, supper low inductance, as well as surge and pulse
applications. LPS family Available in very low ohm
(0.002Ω ~ 0.05Ω) and high power (1W ~ 5W).
The dimensions of the semi-customized final unit is designed
in accordance with the applicational requirements of resistance
value and required power rating. Token’s LPS series can be
manufactured with 2 or 4 soldertags (terminals). The LPS type B with 2 soldertags (1 pin on each side) is a
standard part of LPS series and type A with 4 terminals (2 pin on each side) is used either for Kelvin connections
or for high current applications. Depending from the alloy material’s thickness, one terminal contact on each
side can carry up to 50A (A (Current) = (W (Power)/Ω (Resistance))1/2), so a 4-terminal part can carry 100A (ask
Token factory).
Operating temperature range is -50°C to 300°C with tolerances ±2%, ±5%, and ±10%.
Token will also produce low ohm resistor LPS series outside these specifications to meet customer requirements.
Contact us with your specific needs.
Features
Applications
- Radial leads.
- Non-inductance.
- Solderable Copper Leads.
- Lead (Pb)-free and RoHS compliant.
- ±2%, ±5%, ±10% standard tolerance.
- High stability bare metal element open air style.
Version 2010
http://www.token.com.tw/
- High power AC/DC detection.
- Automotive, Feedback System.
- Residual Battery Power Detection.
- Inverter and Switching Power Supplies
- CPU Drive Control, Power Tool Motor controls.
- Power Supply Shunt, Current Detective,
and Current Sensing.
rfq token.com.tw
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TOKEN
LPS Low Ohm Current Sensing Resistors
Dimensions (Unit: mm)
Type
LPS359-008
LPS359-009
LPS359-010
LPS359-011
Power (Watts)
1
2
3
5
Resistance Range (Ω)
R005~R05
R005~R02
R003~R01
R002~R005
RM (mm)
5 ~ 30
H (mm) Max.
20.0
Construction: 1. W, T and H depend on material, resistance value and required power rating.
2. RM: 5~30 mm, preferably in 5 mm-steps. Special varieties on request.
3. M: Measuring point.
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Version 2010
TOKEN
LPS Low Ohm Current Sensing Resistors
Characteristic Specification
Test Items
Resistance range
Tolerances
Temperature coefficient
Insulation voltage
Insulation resistance
Derating, linear
Climatic category
Temperature range
Endurance (P70, 70°C, 1000 Hrs.)
Damp heat, steady state (40°C, 93% r.h., 56d)
Climatic sequence
Terminal strength
Terminal tensile strength
Resistance to soldering heat (350°C, 3.5s)
Solderability (Solder bath method 235±5°C, 2±0.5s)
Specification
R002~R05
±2%, ±5%, ±10%
Upon request
Non insulated
Non insulated
70~300°C(0W)
55/155/21
-50~300°C
ΔR≤±2%R
ΔR≤±2%R
ΔR≤±0.5%R
None
None
ΔR≤±0.5%R typ.
Good tinning (≥ 90 % covered), no visible damage
How to Order
LPS359-008
B
3
R024
J
P






 Part Number: LPS359-008, LPS359-009, LPS359-010, LPS359-011
 Terminal Type
Code
A
B
 Tolerance %
Resistance Value (Ω)
Code
Tolerance %
4 Terminals
2 Terminals
G
J
K
±2%
±5%
±10%
 Rated power
Code
1
2
3
5
Rated power
1 Watt
2 Watt
3 Watt
5 Watt
 Package-Code
Code
Package-Code
P
Bulk
 Resistance Value (Ω)
Code
Resistance Value (Ω)
R002
R010
R022
R050
0.002Ω
0.010Ω
0.022Ω
0.050Ω
Back to 1st Page - Low Ohm Current Sensing Resistors (LPS)
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TOKEN
BWL Low Resistive Power Resistors
Low Resistance
Power Resistors
Lowest Ohmic Value Resistor (BWL)
Minimise Power Consumption
Preview
In response to demand for more energy efficient products,
Token Electronics has expanded its current sensing resistors
offering with the launch of the BWL series, its lowest ohmic
value resistor, to minimise power consumption.
The BWL series has been designed for current sensing in
power electronic systems and the resistors are available in
0.5W to 10W power ratings, with a wide ohmic range
starting from as low as 0.005Ω.
Products in the economical, low-inductance BWL series are
axial leads with high temperature mold compound, making
them well-suited to the industry trend and are ideal for all
types of current sensing applications including switching and linear power supplies, instruments and power
amplifiers
In addition, the BWL series utilizes metal strip technology, essential for those involved in constructing devices
and circuits for the detection of currents.
Token’s BWL standard series is lead-free and RoHS compliant and can be a replacement for Vishay, IRC, KAO,
Panasonic current sense devices with more competitive price and short lead time.
Contact us with your specific needs.
Material
Applications
- Terminals: Tinned copper.
- Element: Self-supporting nickel-chrome alloy.
- BWL metal strip technology utilizes manganin.
- Encapsulation: High temperature mold compound.
- Switching and linear power supplies.
- Notebook power management.
- Power amplifiers.
- Instruments.
Features
- Low inductance.
- Excellent load life stability.
- Low temperature coefficient.
- Cooler operation for high power to size ratio.
- Proprietary processing technique produces extremely low resistance values.
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Version 2010
TOKEN
BWL Low Resistive Power Resistors
Technical Specifcations & Dimensions
-55
100
85
30±3
A
B
Rated Power %
Power Derating Curve
80
58.5
40
F (check point)
20
0
d
-80 -60 -40 -20 0 20 40 60 80 100 120 140 160 175 200
Ambient Temp. °C
Type
Rated Watts
at 25°C
(W)
BWL-0.5
BWL-1
BWL-3
BWL-4
BWL-5
BWL-10
0.5
1.0
3.0
4.0
5.0
10.0
Resistance Range
(Ω)
Min
Max
0.01
1
0.005
2
0.005
2
0.005
5
0.005
1
0.01
1
Tolerance
±1%
±2%
±5%
Dimensions (mm)
A±0.25
7.0
11.0
15.0
18.0
24.0
46.5
ΦB±0.25
3.0
3.0
5.2
6.5
8.4
10.0
Φd
0.8
0.8
0.8
0.8
1.0
1.0
F
27.0
31.0
34.0
38.0
44.0
66.0
Electrical Performance
Test Items
Operating Temp. Range
Insulation Resistance
Dielectric Withstanding Voltage
Load Life
Moisture-Proof Load Life
Resistance to soldering heat
Solderability
Test Conditions
500V
500V AC 1 Min.
70°C on~off cycle 1000 Hrs.
40°C 95% RH on~off cycle 21 Hrs.
350°C, 3.5s
235±5°C, 5s(solder bath method)
Specifications
-55°C ~ 175°C
>1GΩ
ΔR ≤ ±0.1%R
ΔR ≤ ±1%R
ΔR ≤ ±0.2%R
ΔR ≤ ±0.1%R
IEC68-2-20(1968)
How to Order
BWL
1W
R01
F
P





 Part Number
 Power Rating (W)
 Resistance
Code
R01
R1
1R
 Resistance Tolerance
Resistance
0.01Ω
0.1Ω
1Ω
Code
F
G
J
Resistance Tolerance
±1%
±2%
±5%
 Packaging: P (Bulk)
Back to 1st Page - Power Low Resistance Resistors (BWR)
Version 2010
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53 of 56
TOKEN
NE Metal Film Precision Resistors
Metal Film
Extra Low Ohmic
Precision Resistors
Token Advanced Film NE Spell High Precision
Preview
A homogenous film of metal alloy is deposited on a high grade ceramic body. After a helical groove has been cut
in the resistive layer, tinned connecting wires of electrolytic copper are welded to the end-caps.
The resistors are moulding which provides electrical, mechanical, and climatic protection.
Token has complete capability to develop specific reliability programs designed to customer requirements.
Products equate Vishay, Ohmite, Caddock, IRC, EBG, Panasonic Precision Devices with more competitive price
and fast delivery.
Full line products meet RoHS compliant. Detailed specifications, both mechanical and electrical, please contact
our sales representative for more information.
MIL-PRF-55182 :
The NE series meets the electrical, environmental and dimensional requirements of MIL-PRF-55182.
Referencing to Chinese National Quality Standard GJB244A-2001.
POWER RATING
Power ratings are based on the following two conditions,
- ± 2.0 % maximum ΔR in 10 000 h load life.
- + 175 °C maximum operating temperature.
Applications
-
Telecom
Test and measurement
Space and aircraft electronics
Industrial process control systems
Measuring and calibration equipment
Features
- Metal film moulding type
- Industrial grades, RoHS Compliant.
- Excellent stability and High reliability.
- Caps range of ultra low resistance 0.05Ω ~ 10Ω.
- Extreme precision tolerance tight to A5(±0.05%).
- Extensive stocking program at distributors and factory.
- Controlled temperature coefficient and narrowed to C7 (±5PPM/°C).
- Token NE Series meets MIL-PRF-55182 and GJB244A-2001 quality standards.
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TOKEN
NE Metal Film Precision Resistors
Dimensions & Technical Characteristics
100
L
(Rated power)%
D
50
0
70
175 (°C)
-55
Precision Resistor (NE) Power Derating Curve
A
Metal Film (NE) Dimensions
Type
70 °C
125 °C
Resistance Range (Ω)
L ± 0.3
Dimensions (mm)
D ± 0.4
A ± 0.05
Working Temperature Range
Rated Wattage (W)
Nominal Resistance Tolerance
J(±5.0%) F(±1.0%)
D(±0.5%) C(±0.25%)
B(±0.10%)
A5(±0.05%)
Temperature Coefficient PPM
Normal test range
(+25°C ~ +85°C)
NE1/10
0.25
0.10
0.05 ~ 10
6.80
2.50
0.60
NE1/8
NE1/4
NE1/2
0.5
0.75
1.0
0.125
0.25
0.5
0.05 ~ 10
0.025 ~ 10
0.025 ~ 10
10.2
14.5
18.4
3.80
4.50
6.50
0.60
0.60
0.80
-55°C ~ +175°C
all resistance:J
0.1Ω≤R≤0.2Ω:J / F
0.2Ω<R≤0.4Ω:J / F / D
0.4Ω<R≤1.0Ω:J / F / D / C
1Ω<R≤5Ω :J / F / D / C / B
5Ω<R
: J / F / D / C / B / A5
1Ω≤R≤3Ω: C2(±50PPM/°C), C3(±25PPM/°C)
R>3Ω: C2(±50PPM/°C), C3(±25PPM/°C),C5(±15PPM/°C),
C6(±10PPM/°C), C7(±5PPM/°C)
R<1Ω:No Temperature Coefficient reference
Remark: Please contact Token’s Representatives if your requirement is not in above range.
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TOKEN
NE Metal Film Precision Resistors
Periodical Inspection Items and Methods
Type
Item
Method
GJB244A (MIL-PRF-55182) 4.8.18
Rated Wattage,125°C,2000h
10000h
GJB244A (MIL-PRF-55182) 4.8.18
-10°C ~ +65°C, RH<90%
Rated Wattage, Cycle 240h.
GJB244A 4.8.19
175°C 2000h
GJB244A (MIL-PRF-55182)
4.8.12/4.8.23/4.8.10
Life time
LongPeriod
Humidity
High temp exposed
Requirement
GJB244A (MIL-PRF-55182) 3.24
ΔR≤±(0.5%R+0.01Ω)
ΔR≤±(2%R+0.01Ω)
GJB244A (MIL-PRF-55182)3.21
ΔR≤±(0.4%R+0.01Ω)
GJB244A (MIL-PRF-55182)3.25
ΔR≤±(2.0%R+0.01Ω)
Dielectric voltage
GJB244A (MIL-PRF-55182)
3.18/3.29/3.16
ΔR≤±(0.15%R+0.01Ω)
no physical damage, arc,
isolation break through
Lead strength
GJB244A (MIL-PRF-55182)
GJB244A (MIL-PRF-55182)
Short Period
Impact
4.8.11/4.8.16/4.8.17
3.17/3.22/3.23
High frequency vibration
ΔR≤±(0.20%R+0.01Ω)
no physical damage
Solderability
GJB244A (MIL-PRF-55182) 4.8.14 GJB244A (MIL-PRF-55182)3.20
ΔR≤±(0.10%R+0.01Ω)
no physical damage
How to Order
NE1/8
0.5W
10R
B
C6
P






 Part Number: NE1/10, NE1/8, NE1/4, NE1/2
 Rated Power (W)
Code
NE1/10
NE1/8
NE1/4
NE1/2
NE1/10
EE1/8
EE1/4
EE1/2
Temperature
70 °C
125°C
 Resistance Tolerance
Rated Power (W)
0.25
0.50
0.75
1.00
0.10
0.125
0.25
0.50
Resistance Tolerance
A5
B
C
D
F
J
±0.05%
±0.10%
±0.25%
±0.50%
±1.00%
±5.00%
 Temperature coefficient (PPM/°C)
 Resistance Value
Code
R01
R1
1R
Code
Resistance Value
0.01Ω
0.1Ω
1Ω
Code
Temperature coefficient
C2
C3
C5
C6
C7
±50ppm/°C
±25ppm/°C
±15ppm/°C
±10ppm/°C
±5ppm/°C
 Packaging: P (Bulk)
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