CD2015FC N/A, CD2015FC Datasheet
CD2015FC
Manufacturer Part Number
CD2015FC
Description
Low Resistance Chip down to 0.010 OHM at ± with unique Pedestal Terminal Designl for Current Sense in Hybrid and SMT Applications
Manufacturer
N/A
Datasheet
1.CD2015FC.pdf
(2 pages)
Derating Curve:
RHOPOINT COMPONENTS LTD.
Holland Road
Hurst Green
Oxted, Surrey, RH8 9AX
the Type MG Precision High Voltage Resistors' outstanding
combination of performance features:
•
•
•
•
•
•
many years of use in equipment that demands the highest
reliability and stability, including TWT amplifiers, X-ray
systems, geophysical instruments, and medical electronics.
© 2004 Caddock Electronics, Inc.
Applications Engineering
17271 North Umpqua Hwy.
Roseburg, Oregon 97470-9422
Phone: (541) 496-0700
Fax: (541) 496-0408
UK & Ireland
Distributors
© 2004 Caddock Electronics, Inc.
Temperature Coefficient as tight as 80 ppm/°C, Combined with Excellent Long-Term Stability and Precision Tolerances.
the Type MG Precision High Voltage Resistors' outstanding
combination of performance features:
•
•
•
•
•
•
many years of use in equipment that demands the highest
reliability and stability, including TWT amplifiers, X-ray
systems, geophysical instruments, and medical electronics.
Applications Engineering
17271 North Umpqua Hwy.
Roseburg, Oregon 97470-9422
Phone: (541) 496-0700
Fax: (541) 496-0408
the Type MG Precision High Voltage Resistors' outstanding
Temperature Coefficient as tight as 80 ppm/°C, Combined with Excellent Long-Term Stability and Precision Tolerances.
combination of performance features:
•
•
•
•
•
•
many years of use in equipment that demands the highest
reliability and stability, including TWT amplifiers, X-ray
systems, geophysical instruments, and medical electronics.
the Type MG Precision High Voltage Resistors' outstanding
combination of performance features:
•
•
•
•
•
the Type MG Precision High Voltage Resistors' outstanding
combination of performance features:
•
•
•
•
many years of use in equipment that demands the highest
•
reliability and stability, including TWT amplifiers, X-ray
•
systems, geophysical instruments, and medical electronics.
Applications Engineering
•
17271 North Umpqua Hwy.
Roseburg, Oregon 97470-9422
Phone: (541) 496-0700
Fax: (541) 496-0408
many years of use in equipment that demands the highest
© 2004 Caddock Electronics, Inc.
reliability and stability, including TWT amplifiers, X-ray
systems, geophysical instruments, and medical electronics.
Temperature Coefficient as tight as 80 ppm/°C, Combined with Excellent Long-Term Stability and Precision Tolerances.
Temperature Coefficient as tight as 80 ppm/°C, Combined with Excellent Long-Term Stability and Precision Tolerances.
Temperature Coefficient as tight as 80 ppm/°C, Combined with Excellent Long-Term Stability and Precision Tolerances.
MG650
MG655
MG660
MG680
MG710
MG712
MG714
MG715
MG716
MG717
MG720
MG721
MG725
MG730
MG731
MG735
MG740
MG745
MG750
MG780
MG785
MG810
MG815
MG650
MG655
MG660
MG680
MG710
MG712
MG714
MG715
MG716
MG717
MG720
MG721
MG725
MG730
MG731
MG735
DIMENSIONS IN INCHES AND (MILLIMETERS)
MG740
MG745
MG750
MG780
MG785
MG810
MG815
Model
MG650
MG655
MG660
MG680
MG710
MG712
MG714
MG715
MG716
MG717
MG720
MG721
MG725
MG730
MG731
MG735
MG740
MG745
MG750
MG780
MG785
MG810
MG815
Model
RHOPOINT COMPONENTS LTD
RHOPOINT COMPONENTS LTD
Holland Road, Hurst Green,
Holland Road, Hurst Green,
Oxted, Surrey, RH8 9AX
Oxted, Surrey, RH8 9AX
Phone: +44 (0) 1883 717988
RHOPOINT COMPONENTS LTD
Phone: +44 (0) 1883 717988
Fax: +44 (0) 1883 712938
Holland Road, Hurst Green,
Fax: +44 (0) 1883 712938
Oxted, Surrey, RH8 9AX
Phone: +44 (0) 1883 717988
MG650
Fax: +44 (0) 1883 712938
MG655
MG660
MG680
MG710
Single-resistor values as high as 10,000 Megohms.
Maximum continuous operating voltages as high as
48,000 volts ("-15" ratings).
Overvoltage capabilities of 150% of standard working
voltages for all models and values, (except "-15" ratings).
Resistance Tolerances from ±1.0% to ±0.1%.
Temperature Coefficient, for standard resistance range, of
80 ppm/°C in combination with resistance tolerances as
tight as ±0.1%.
Type MG resistors have demonstrated stability of 0.01%
per 1,000 hours in extended load life testing of standard
resistance range values.
Model
Model
© 2002 Caddock Electronics, Inc.
© 2002 Caddock Electronics, Inc.
© 2002 Caddock Electronics, Inc.
Model
Style FC - Flip Chip Version
Style FC - Flip Chip Version
Style FC - Flip Chip Version
Single-resistor values as high as 10,000 Megohms.
Maximum continuous operating voltages as high as
48,000 volts ("-15" ratings).
Overvoltage capabilities of 150% of standard working
voltages for all models and values, (except "-15" ratings).
Resistance Tolerances from ±1.0% to ±0.1%.
Temperature Coefficient, for standard resistance range, of
80 ppm/°C in combination with resistance tolerances as
tight as ±0.1%.
Type MG resistors have demonstrated stability of 0.01%
per 1,000 hours in extended load life testing of standard
resistance range values.
Note 2: Thermal Resistance - In High Power Applications where the circuit board material
Note 2: Thermal Resistance - In High Power Applications where the circuit board material
provides high heat sinking benefits (such as IMS, Alumina, or other) the thermal resistance of
provides high heat sinking benefits (such as IMS, Alumina, or other) the thermal resistance of
the chip resistor is useful to establish the maximum power capability of the chip resistor in the
Note 2: Thermal Resistance - In High Power Applications where the circuit board material
the chip resistor is useful to establish the maximum power capability of the chip resistor in the
application. The film temperature is measured at the center of the resistor element and solder
provides high heat sinking benefits (such as IMS, Alumina, or other) the thermal resistance of
application. The film temperature is measured at the center of the resistor element and solder
pad temperature at the center of the solderable pedestal (point X in the recommended circuit
the chip resistor is useful to establish the maximum power capability of the chip resistor in the
pad temperature at the center of the solderable pedestal (point X in the recommended circuit
layouts shown below). Maximum temperature of the chip resistor (at the center of chip)
application. The film temperature is measured at the center of the resistor element and solder
layouts shown below). Maximum temperature of the chip resistor (at the center of chip)
should not exceed 150°C through the temperature range of the application
pad temperature at the center of the solderable pedestal (point X in the recommended circuit
should not exceed 150°C through the temperature range of the application
layouts shown below). Maximum temperature of the chip resistor (at the center of chip)
should not exceed 150°C through the temperature range of the application
Type CD Low Resistance Precision Chip Resistors utilize the proven
Type CD Low Resistance Precision Chip Resistors utilize the proven
Caddock Micronox
Caddock Micronox
range in this family. The special performance features of the Type CD
Type CD Low Resistance Precision Chip Resistors utilize the proven
range in this family. The special performance features of the Type CD
Low Resistance Precision Film Resistor include:
Caddock Micronox
Low Resistance Precision Film Resistor include:
•
Single-resistor values as high as 10,000 Megohms.
range in this family. The special performance features of the Type CD
•
Maximum continuous operating voltages as high as
Low Resistance Precision Film Resistor include:
48,000 volts ("-15" ratings).
•
Overvoltage capabilities of 150% of standard working
•
voltages for all models and values, (except "-15" ratings).
•
•
Resistance Tolerances from ±1.0% to ±0.1%.
•
Temperature Coefficient, for standard resistance range, of
•
80 ppm/°C in combination with resistance tolerances as
•
tight as ±0.1%.
Type MG resistors have demonstrated stability of 0.01%
per 1,000 hours in extended load life testing of standard
•
•
resistance range values.
•
•
•
•
•
•
•
No.
Style FC Derating Curve For General Application
Style FC Derating Curve For General Application
Style FC Derating Curve For General Application
Single-resistor values as high as 10,000 Megohms.
Maximum continuous operating voltages as high as
Certain products shown in this catalog are covered by one or more patents, there are also patents pending.
48,000 volts ("-15" ratings).
Recommended Circuit Board Layout
Overvoltage capabilities of 150% of standard working
Recommended Circuit Board Layout
voltages for all models and values, (except "-15" ratings).
(current and sense connections):
(current and sense connections):
Resistance Tolerances from ±1.0% to ±0.1%.
Recommended Circuit Board Layout
Temperature Coefficient, for standard resistance range, of
(current and sense connections):
80 ppm/°C in combination with resistance tolerances as
tight as ±0.1%.
Single-resistor values as high as 10,000 Megohms.
Type MG resistors have demonstrated stability of 0.01%
Maximum continuous operating voltages as high as
per 1,000 hours in extended load life testing of standard
48,000 volts ("-15" ratings).
resistance range values.
Overvoltage capabilities of 150% of standard working
voltages for all models and values, (except "-15" ratings).
Resistance Tolerances from ±1.0% to ±0.1%.
Temperature Coefficient, for standard resistance range, of
80 ppm/°C in combination with resistance tolerances as
tight as ±0.1%.
Type MG resistors have demonstrated stability of 0.01%
per 1,000 hours in extended load life testing of standard
resistance range values.
No.
MG 660
MG 680
MG 710
MG 712
MG 714
MG 715
MG 716
MG 720
MG 725
MG 717
MG 721
MG 730
MG 735
MG 745
MG 731
MG 740
MG 750
MG 780
MG 785
MG 810
MG 815
MG 650
MG 655
No.
No.
RHOPOINT COMPONENTS LTD
Holland Road, Hurst Green,
Oxted, Surrey, RH8 9AX
Phone: +44 (0) 1883 717988
Fax: +44 (0) 1883 712938
© 2002 Caddock Electronics, Inc.
Style FC - Flip Chip Version
Style FC Derating Curve For General Application
Note 2: Thermal Resistance - In High Power Applications where the circuit board material
provides high heat sinking benefits (such as IMS, Alumina, or other) the thermal resistance of
the chip resistor is useful to establish the maximum power capability of the chip resistor in the
application. The film temperature is measured at the center of the resistor element and solder
pad temperature at the center of the solderable pedestal (point X in the recommended circuit
layouts shown below). Maximum temperature of the chip resistor (at the center of chip)
should not exceed 150°C through the temperature range of the application
Recommended Circuit Board Layout
(current and sense connections):
Type CD Low Resistance Precision Chip Resistors
Type CD Low Resistance Precision Chip Resistors
Type CD Low Resistance Precision Chip Resistors
Type CD Low Resistance Precision Chip Resistors utilize the proven
Caddock's Micronox
Caddock Micronox
range in this family. The special performance features of the Type CD
Low Resistance Precision Film Resistor include:
•
•
•
•
This exceptional performance has been proven through
•
•
for Current Sense in Hybrid and SMT Applications
for Current Sense in Hybrid and SMT Applications
for Current Sense in Hybrid and SMT Applications
Caddock's Micronox
This exceptional performance has been proven through
Caddock's Micronox
This exceptional performance has been proven through
Caddock's Micronox
Caddock's Micronox
This exceptional performance has been proven through
This exceptional performance has been proven through
CD2015FC
CD2015FC
CD2520FC
CD2520FC
CD2015FC
CD2520FC
100
100
100
80
80
60
60
40
80
40
60
20
20
40
20
Type CD Low Resistance Precision Chip Resistors
0
0
0
for Current Sense in Hybrid and SMT Applications
CD2015FC
CD2520FC
100
Model
Model
Model
Style FC - Flip Chip version for surface mount applications.
Style FC - Flip Chip version for surface mount applications.
Style WB - Wire Bond version for hybrid applications with metallized
Style WB - Wire Bond version for hybrid applications with metallized
back surface for solder down heat sinking of the chip, includes
Style FC - Flip Chip version for surface mount applications.
back surface for solder down heat sinking of the chip, includes
bondable terminatipedestals to receive aluminum wire bonds
Style WB - Wire Bond version for hybrid applications with metallized
bondable terminatipedestals to receive aluminum wire bonds
Resistance as low as 0.010 ohm at ±1%.
back surface for solder down heat sinking of the chip, includes
Resistance as low as 0.010 ohm at ±1%.
Pedestal terminals in this design provide an ultra low resistance
bondable terminatipedestals to receive aluminum wire bonds
Pedestal terminals in this design provide an ultra low resistance
connection pad which maintains the precision 0.010Ω ±1% at the
Resistance as low as 0.010 ohm at ±1%.
connection pad which maintains the precision 0.010Ω ±1% at the
point of customer Kelvin connection to the resistor chip. The pedestal
Pedestal terminals in this design provide an ultra low resistance
point of customer Kelvin connection to the resistor chip. The pedestal
terminal with its copper core also provides heat spreading which
connection pad which maintains the precision 0.010Ω ±1% at the
terminal with its copper core also provides heat spreading which
enhances the high power handling capability.
point of customer Kelvin connection to the resistor chip. The pedestal
enhances the high power handling capability.
Thermal resistance is provided to optimize high power designs when
terminal with its copper core also provides heat spreading which
Thermal resistance is provided to optimize high power designs when
utilizing higher thermal conductivity circuit board substrates such as IMS or Alumina.
enhances the high power handling capability.
utilizing higher thermal conductivity circuit board substrates such as IMS or Alumina.
High pulse handling and overload capability.
Thermal resistance is provided to optimize high power designs when
High pulse handling and overload capability.
Low inductance provides excellent high frequency and pulse response.
utilizing higher thermal conductivity circuit board substrates such as IMS or Alumina.
Low inductance provides excellent high frequency and pulse response.
High pulse handling and overload capability.
Low inductance provides excellent high frequency and pulse response.
80
60
40
20
(38.10 ± 3.18)
0
1.500 ± .125
Low Resistance Chip down to 0.010
Low Resistance Chip down to 0.010
Low Resistance Chip down to 0.010
Style FC - Flip Chip version for surface mount applications.
Style WB - Wire Bond version for hybrid applications with metallized
back surface for solder down heat sinking of the chip, includes
bondable terminatipedestals to receive aluminum wire bonds
Resistance as low as 0.010 ohm at ±1%.
Pedestal terminals in this design provide an ultra low resistance
connection pad which maintains the precision 0.010Ω ±1% at the
point of customer Kelvin connection to the resistor chip. The pedestal
terminal with its copper core also provides heat spreading which
enhances the high power handling capability.
Thermal resistance is provided to optimize high power designs when
utilizing higher thermal conductivity circuit board substrates such as IMS or Alumina.
High pulse handling and overload capability.
Low inductance provides excellent high frequency and pulse response.
Model
Now with Extended Resistance Range to 10,000 Megohms and Additional Models
Models with low inductance construction are in shaded areas.
Now with Extended Resistance Range to 10,000 Megohms and Additional Models
Watt-
Models with Caddock's Non-Inductive Resistance Pattern are in non-shaded areas.
Models with low inductance construction are in shaded areas.
Watt-
Models with Caddock's Non-Inductive Resistance Pattern are in non-shaded areas.
Now with Extended Resistance Range to 10,000 Megohms and Additional Models
Now with Extended Resistance Range to 10,000 Megohms and Additional Models
Now with Extended Resistance Range to 10,000 Megohms and Additional Models
10.0
15.0
Models with low inductance construction are in shaded areas.
Temperature Coefficient as tight as 80 ppm/°C, Combined with Excellent Long-Term Stability, and Precision Tolerances.
Watt-
age
10.0
Models with Caddock's Non-Inductive Resistance Pattern are in non-shaded areas.
15.0
Watt-
Watt-
Type MG Precision High Voltage Resistors' outstanding
combination of performance features:
• Single-resistor values as high as 10,000 Megohms.
• Maximum continuous operating voltages as high as
• Overvoltage capabilities of 150% of standard working
• Resistance Tolerances from ±1.0% to ±0.1%.
• Temperature Coefficient, for standard resistance range, of
• Typical extended life stability of 0.02% per 1,000 hours
many years of use in equipment that demands the highest
reliability and stability, including TWT amplifiers, X-ray systems,
geophysical instruments and medical electronics
0.5
0.5
0.6
0.8
1.0
0.6
1.0
1.0
1.5
1.5
2.0
2.0
2.5
3.0
2.6
3.6
3.6
5.0
5.0
7.5
8.0
10.0
15.0
age
0.5
0.5
0.6
0.8
1.0
0.6
1.0
1.0
1.5
1.5
2.0
2.0
2.5
3.0
2.6
3.6
3.6
5.0
5.0
7.5
RHOPOINT COMPONENTS LTD.
8.0
Holland Road
Hurst Green
Oxted, Surrey, RH8 9AX
Low Resistance Chip down to 0.010
age
age
0.5
0.5
0.6
0.8
1.0
0.6
1.0
1.0
1.5
1.5
2.0
2.0
2.5
3.0
2.6
3.6
3.6
5.0
5.0
7.5
8.0
0.5
0.5
0.6
0.8
1.0
RATED POWER OR
RATED VOLTAGE, %
MG 650
MG 655
MG 660
MG 680
MG 710
MG 712
MG 714
MG 715
MG 716
MG 717
MG 720
MG 721
MG 725
MG 730
MG 731
MG 735
MG 740
MG 745
MG 750
MG 780
MG 785
MG 810
MG 815
Model
48,000 volts ("-15" Ratings).
80 ppm/°C in combination with resistance tolerances as
tight as ±0.1%.
for standard resistance range as demonstrated by
reliability testing.
AMBIENT TEMPERATURE, C
AMBIENT TEMPERATURE, C
AMBIENT TEMPERATURE, C
voltages for all models and values, (except "-15" ratings).
No.
AMBIENT TEMPERATURE, C
25
25
25
Fig. 1A: Recommended Kelvin layout.
Fig. 1A: Recommended Kelvin layout.
Fig. 1A: Recommended Kelvin layout.
Resistors
Caddock's Micronox® resistance films are the source of the
This exceptional performance has been proven through
Continuous
Continuous
25
Fig. 1A: Recommended Kelvin layout.
Continuous
Oper. Volt.
Continuous
Type MG Precision High Voltage Resistors
Oper. Volt.
Oper. Volt.
Oper. Volt.
10,000
10,000
15,000
10,000
15,000
20,000
25,000
30,000
Type MG Precision High Voltage Resistors
10,000
10,000
15,000
10,000
15,000
20,000
25,000
30,000
Type MG Precision High Voltage Resistors
10,000
10,000
15,000
10,000
15,000
20,000
25,000
30,000
Type MG Precision High Voltage Resistors
Type MG Precision High Voltage Resistors
Type MG Precision High Voltage Resistors
1,000
2,000
4,000
1,000
1,000
2,000
4,000
2,000
6,000
4,000
6,000
4,000
6,000
Max.
Max.
1,000
2,000
4,000
1,000
1,000
2,000
4,000
2,000
6,000
4,000
6,000
4,000
6,000
1,000
2,000
4,000
1,000
1,000
2,000
4,000
2,000
6,000
4,000
6,000
4,000
6,000
Max.
Max.
1,000
2,000
4,000
Max.
Now with Extended Resistance Range to 10,000 Megohms and Additional Models
Models with low inductance construction are in shaded areas.
Models with Caddock's Non-Inductive Resistance Pattern are in non-shaded areas.
600
600
Watt-
600
600
0.010 Ω
0.010 Ω
0.010 Ω
0.010 Ω
0.010 Ω
0.010 Ω
600
600
10.0
15.0
age
600
600
0.010 Ω
0.010 Ω
1.0
1.0
1.0
1.5
1.5
2.0
2.0
2.5
3.0
2.6
3.6
3.6
5.0
5.0
7.5
8.0
Min.
Min.
Min.
.5
.5
Min.
.6
.8
.6
C = Current connection
C = Current connection
S = Sense connection
S = Sense connection
C = Current connection
S = Sense connection
C = Current connection
S = Sense connection
Resistance
Resistance
Resistance
70
70
70
Resistance
70
Type MG Precision High Voltage Resistors
Continuous
100
Oper. Volt.
Overload
Overload
Overload
80
60
40
20
Overload
Overload
Rating
Type 1
Type 1
Type 1
Type 1
Type 1
Type 2
Type 2
Type 2
Type 2
Type 2
Type 2
Type 2
Type 2
Type 2
Type 2
Type 2
Type 2
Type 2
Type 2
Type 2
Type 2
Type 2
®
®
®
Type 1
Type 1
Type 1
Type 1
Type 1
Type 2
Type 2
Type 2
Type 2
Type 2
Type 2
Type 2
Type 2
Type 2
Type 2
Type 2
Type 2
Type 2
Type 2
Type 2
Type 2
Type 2
Type 2
Rating
0
Type 2
Rating
Type 1
Type 1
Type 1
Type 1
Type 1
Type 2
Type 2
Type 2
Type 2
Type 2
Type 2
Type 2
Type 2
Type 2
Type 2
Type 2
Type 2
Type 2
Type 2
Type 2
Type 2
Type 2
®
10,000
10,000
15,000
10,000
15,000
20,000
25,000
30,000
Type 2
Rating
Type 1
Type 1
Type 1
Type 1
Type 1
A
Max.
1,000
2,000
4,000
1,000
1,000
2,000
4,000
2,000
6,000
4,000
6,000
4,000
6,000
resistance films to achieve the unique low resistance
resistance films to achieve the unique low resistance
resistance films to achieve the unique low resistance
resistance films to achieve the unique low resistance
600
600
100
100
100
0.20 Ω
0.20 Ω
0.20 Ω
0.20 Ω
0.20 Ω
0.20 Ω
100
0.20 Ω
0.20 Ω
25
Max.
Max.
Max.
Max.
®
®
AMBIENT TEMPERATURE, °C
®
®
®
resistance films are the source of
Strength
resistance films are the source of
Strength
resistance films are the source of
Dielect.
resistance films are the source of
resistance films are the source of
Strength
Dielect.
75
Strength
Dielect.
1,000
1,000
1,000
1,000
1,000
1,000
1,000
1,000
1,000
1,000
Dielect.
1,000
1,000
1,000
1,000
1,000
1,000
1,000
1,000
1,000
1,000
Dielect.
1,000
1,000
1,000
1,000
1,000
1,000
1,000
1,000
1,000
1,000
Strength
Dielect.
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
1,000
1,000
1,000
1,000
1,000
1,000
1,000
1,000
1,000
1,000
o
o
o
o
General Applications
General Applications
General Applications
General Applications
RHOPOINT COMPONENTS LTD.
CAD
750
750
750
750
750
750
750
750
750
750
750
750
750
CAD
150
CAD
150
150
150
125
B
Power Rating
Power Rating
Power Rating
Power Rating
(see note 1)
(see note 1)
(see note 1)
(see note 1)
200 �
200 �
1.5 Watts
400 �
600 �
800 �
800 �
200 �
400 �
600 �
600 �
200 �
500 �
200 �
750 �
300 �
400 �
600 �
800 �
1.5 Watts
200 �
1.5 Watts
200 �
1.5 Watts
400 �
600 �
800 �
800 �
200 �
400 �
600 �
600 �
1.5 K
200 �
500 �
200 �
750 �
300 �
400 �
600 �
800 �
at 70° C
1.0 Watt
1.5 K
Min.
at 70° C
200 �
at 70° C
200 �
at 70° C
400 �
600 �
800 �
800 �
200 �
400 �
600 �
600 �
200 �
500 �
200 �
750 �
300 �
400 �
600 �
800 �
For Caddock Distributors listed by country see caddock.com/contact/dist.html
1.0 Watt
Min.
1.0 Watt
1.0 Watt
200 �
200 �
400 �
For Caddock Distributors listed by country see caddock.com/contact/dist.html
600 �
800 �
1 K
1.5 K
1 K
1 K
1 K
1 K
1 K
1 K
1 K
Min.
For Caddock Distributors listed by country see caddock.com/contact/dist.html
Min.
1 K
1 K
1 K
1 K
175
200 Ω
200 Ω
400 Ω
600 Ω
800 Ω
800 Ω
200 Ω
400 Ω
600 Ω
600 Ω
200 Ω
500 Ω
200 Ω
750 Ω
300 Ω
400 Ω
600 Ω
800 Ω
RHOPOINT COMPONENTS LTD
1.5 K
RHOPOINT COMPONENTS LTD
RHOPOINT COMPONENTS LTD
RHOPOINT COMPONENTS LTD
Min.
Note 1: General Applications - The power rating for
general applications is based upon 0.5 sq. in. (300
mm
connected to each end of the resistor. Maximum chip
temperature is 150°C. Use Derating Curve to derate
appropriately for the maximum ambient temperature
and for the temperature limitations of the adjacent
materials.
Note 1: General Applications - The power rating for
Note 1: General Applications - The power rating for
general applications is based upon 0.5 sq. in. (300
general applications is based upon 0.5 sq. in. (300
mm
Note 1: General Applications - The power rating for
mm
connected to each end of the resistor. Maximum chip
general applications is based upon 0.5 sq. in. (300
connected to each end of the resistor. Maximum chip
temperature is 150°C. Use Derating Curve to derate
mm
temperature is 150°C. Use Derating Curve to derate
appropriately for the maximum ambient temperature
1 K
connected to each end of the resistor. Maximum chip
appropriately for the maximum ambient temperature
and for the temperature limitations of the adjacent
temperature is 150°C. Use Derating Curve to derate
and for the temperature limitations of the adjacent
materials.
appropriately for the maximum ambient temperature
materials.
and for the temperature limitations of the adjacent
materials.
1 K
C
1 K
1 K
Voltage
178 Meg
288 Meg
128 Meg
192 Meg
320 Meg
400 Meg
384 Meg
RHOPOINT COMPONENTS LTD.
178 Meg
288 Meg
128 Meg
192 Meg
320 Meg
400 Meg
384 Meg
6.5 Meg
2
6.5 Meg
178 Meg
288 Meg
128 Meg
192 Meg
320 Meg
400 Meg
384 Meg
225
40 Meg
64 Meg
26 Meg
70 Meg
17 Meg
51 Meg
77 Meg
2
6.5 Meg
2
2
26 Meg
70 Meg
17 Meg
51 Meg
77 Meg
40 Meg
64 Meg
) of termination pad or trace area (2 oz. copper)
Power Capability Information
Min.
26 Meg
70 Meg
17 Meg
51 Meg
77 Meg
40 Meg
64 Meg
N/A
N/A
Min.
N/A
N/A
N/A
N/A
N/A
N/A
-15
) of termination pad or trace area (2 oz. copper)
) of termination pad or trace area (2 oz. copper)
) of termination pad or trace area (2 oz. copper)
N/A
N/A
Power Capability Information
Power Capability Information
Power Capability Information
N/A
N/A
N/A
N/A
N/A
N/A
178 Meg
288 Meg
128 Meg
192 Meg
320 Meg
400 Meg
384 Meg
Min.
-15
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
Min.
-15
6.5 Meg
N/A
N/A
N/A
N/A
N/A
-15
26 Meg
70 Meg
17 Meg
51 Meg
77 Meg
40 Meg
64 Meg
Min.
N/A
N/A
-15
N/A
N/A
N/A
N/A
N/A
N/A
Resistance
e-mail: caddock@caddock.com • web: www.caddock.com
Resistance
DOC
e-mail: caddock@caddock.com • web: www.caddock.com
Resistance
DOC
Resistance
275
e-mail: caddock@caddock.com • web: www.caddock.com
is a surface mount version with solderable pedestal terminals for flip chip soldering.
DOC
Resistance
Resistance
is a surface mount version with solderable pedestal terminals for flip chip soldering.
is a surface mount version with solderable pedestal terminals for flip chip soldering.
is a surface mount version with solderable pedestal terminals for flip chip soldering.
Thermal Resistance - R
High Power Applications
Film (J) to Solder Pad (C)
Thermal Resistance - R
Thermal Resistance - R
Thermal Resistance - R
1,000 Meg
1,250 Meg
2,000 Meg
High Power Applications
High Power Applications
Film (J) to Solder Pad (C)
Film (J) to Solder Pad (C)
High Power Applications
Film (J) to Solder Pad (C)
1,000 Meg
1,250 Meg
2,000 Meg
Standard
Standard
1,000 Meg
1,250 Meg
2,000 Meg
Standard
150 Meg
100 Meg
200 Meg
250 Meg
150 Meg
300 Meg
300 Meg
500 Meg
500 Meg
750 Meg
Standard
150 Meg
100 Meg
200 Meg
250 Meg
150 Meg
300 Meg
300 Meg
500 Meg
500 Meg
750 Meg
1,000 Meg
1,250 Meg
2,000 Meg
Max.
150 Meg
100 Meg
200 Meg
250 Meg
150 Meg
300 Meg
300 Meg
500 Meg
500 Meg
750 Meg
10 Meg
20 Meg
50 Meg
20 Meg
20 Meg
50 Meg
75 Meg
75 Meg
Max.
10 Meg
20 Meg
50 Meg
20 Meg
20 Meg
50 Meg
75 Meg
75 Meg
Standard
Max.
10 Meg
20 Meg
50 Meg
20 Meg
20 Meg
50 Meg
75 Meg
75 Meg
C
Max.
5 Meg
8 Meg
150 Meg
100 Meg
200 Meg
250 Meg
150 Meg
300 Meg
300 Meg
500 Meg
500 Meg
750 Meg
10 Meg
20 Meg
50 Meg
5 Meg
8 Meg
12.0°C/Watt
8 Meg
5 Meg
(see note 2)
10 Meg
20 Meg
50 Meg
20 Meg
20 Meg
50 Meg
75 Meg
75 Meg
C
C
C
5 Meg
8 Meg
9.0°C/Watt
Max.
5 Meg
8 Meg
(see note 2)
(see note 2)
12.0°C/Watt
12.0°C/Watt
(see note 2)
12.0°C/Watt
9.0°C/Watt
9.0°C/Watt
9.0°C/Watt
Ordering Information
Design Assistance in Developing High Voltage Resistor Sets with
Low TC Tracking.
high voltage resistor sets, call or write our Applications Engineering and we will
be pleased to offer the best solution from our high voltage resistor product
capabilities.
.
X
X
X
X
Extended
Extended
10,000 M
10,000 M
Extended
1,000 M
1,500 M
1,500 M
2,500 M
3,750 M
5,000 M
6,250 M
1,000 M
1,500 M
1,500 M
2,500 M
3,750 M
10,000 M
5,000 M
6,250 M
Extended
S
225 M
300 M
750 M
750 M
1,000 M
1,500 M
1,500 M
2,500 M
3,750 M
5,000 M
6,250 M
Extended
225 M
300 M
750 M
750 M
Max.
For immediate engineering assistance in developing Low Ratio TC matched
Max.
225 M
300 M
750 M
750 M
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
10,000 M
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
Max.
1,000 M
1,500 M
1,500 M
2,500 M
3,750 M
5,000 M
6,250 M
S
S
S
Max.
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
K
Max.
225 M
300 M
750 M
750 M
N/A
K
N/A
N/A
N/A
N/A
K
S
Ω
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
S
S
S
High
Ω
Ω
Ω
θJC
X
θJC
θJC
θJC
at
X
X
X
Dimensions in inches and (millimeters)
(101.60 �3.05)
(127.00 �3.05)
(152.40 �3.05)
(101.60 �3.05)
(127.00 �3.05)
(152.40 �3.05)
at
at
at
Dimensions in inches and (millimeters)
(101.60 �3.05)
(127.00 �3.05)
(152.40 �3.05)
Dimensions in inches and (millimeters)
Dimensions in inches and (millimeters)
(25.40 �1.02)
(10.16 �.152)
(14.27 �1.52)
(19.05 �1.52)
(25.40 �1.52)
(18.03 �1.27)
(38.10 �2.03)
(25.40 �1.27)
(50.80 �2.03)
(38.10 �2.03)
(25.40 �1.52)
(50.80 �2.03)
(38.10 �1.52)
(76.20 �2.54)
(53.98 �1.52)
(79.38 �1.52)
Dimensions in inches and (millimeters)
Temperature
(25.40 �1.02)
(10.16 �.152)
(14.27 �1.52)
(19.05 �1.52)
(25.40 �1.52)
(18.03 �1.27)
(38.10 �2.03)
(25.40 �1.27)
(50.80 �2.03)
(38.10 �2.03)
(25.40 �1.52)
(50.80 �2.03)
(38.10 �1.52)
(76.20 �2.54)
(53.98 �1.52)
(79.38 �1.52)
(101.60 ±3.05)
(127.00 ±3.05)
(152.40 ±3.05)
Dimensions in inches and (millimeters)
(12.70 �.76)
(19.05 �.76)
1.000 �.040
1.000 �.060
1.500 �.080
1.000 �.050
2.000 �.080
1.500 �.080
1.000 �.060
2.000 �.080
1.500 �.060
3.000 �.100
2.125 �.060
3.125 �.060
4.000 �.120
5.000 �.120
6.000 �.120
(25.40 �1.02)
(12.70 �.76)
(10.16 �.152)
(19.05 �.76)
1.000 �.040
(14.27 �1.52)
(19.05 �1.52)
(25.40 �1.52)
(18.03 �1.27)
1.000 �.060
(38.10 �2.03)
(25.40 �1.27)
1.500 �.080
(50.80 �2.03)
1.000 �.050
(38.10 �2.03)
2.000 �.080
(25.40 �1.52)
1.500 �.080
(50.80 �2.03)
1.000 �.060
(38.10 �1.52)
2.000 �.080
(76.20 �2.54)
1.500 �.060
(53.98 �1.52)
3.000 �.100
(79.38 �1.52)
2.125 �.060
3.125 �.060
4.000 �.120
5.000 �.120
6.000 �.120
(25.40 �1.02)
Max. Chip
(7.95 �.51)
(7.95 �.76)
(12.70 �.76)
(25.40 ±1.02)
(19.05 �.76)
(10.16 ±.152)
1.000 �.040
(14.27 ±1.52)
(19.05 ±1.52)
(25.40 ±1.52)
(18.03 ±1.27)
1.000 �.060
(38.10 ±2.03)
.710 �.050
(25.40 ±1.27)
1.500 �.080
(50.80 ±2.03)
1.000 �.050
(38.10 ±2.03)
2.000 �.080
(25.40 ±1.52)
(50.80 ±2.03)
1.500 �.080
(38.10 ±1.52)
1.000 �.060
(76.20 ±2.54)
2.000 �.080
(53.98 ±1.52)
1.500 �.060
(79.38 ±1.52)
3.000 �.100
2.125 �.060
3.125 �.060
4.000 �.120
5.000 �.120
6.000 �.120
.400 �.060
.562 �.060
.750 �.060
.710 �.050
C
±
(7.95 �.51)
(7.95 �.76)
.400 �.060
.562 �.060
.750 �.060
(12.70 �.76)
(19.05 �.76)
1.000 �.040
.313 �.020
.313 �.030
(12.70 ±.76)
(19.05 ±.76)
1.000 ±.040
1.000 ±.060
1.500 ±.080
1.000 ±.050
2.000 ±.080
1.500 ±.080
1.000 ±.060
2.000 ±.080
1.500 ±.060
3.000 ±.100
2.125 ±.060
3.125 ±.060
4.000 ±.120
5.000 ±.120
6.000 ±.120
.500 �.030
.750 �.030
.710 �.050
Temperature
(7.95 �.51)
Temperature
(7.95 �.76)
Temperature
.313 �.020
.313 �.030
.500 �.030
.400 �.060
.750 �.030
.562 �.060
.750 �.060
.710 ±.050
(7.95 �.51)
(7.95 �.76)
(7.95 ±.51)
(7.95 ±.76)
.313 �.020
.313 �.030
150°C
150°C
.500 �.030
.750 �.030
.400 ±.060
.562 ±.060
.750 ±.060
Max. Chip
Max. Chip
Max. Chip
.313 �.020
.313 �.030
.500 �.030
.750 �.030
.313 ±.020
.313 ±.030
.500 ±.030
.750 ±.030
A
C
C
C
±
±
1% with unique Pedestal Terminal Design
±
A
A
150°C
150°C
150°C
150°C
150°C
150°C
A
A
1% with unique Pedestal Terminal Design
1% with unique Pedestal Terminal Design
1% with unique Pedestal Terminal Design
.
Tel: +44 (0) 870 608 1188
Model Number:
.
.
.
Preconditioning for Power and Voltage Ratings
are for continuous duty.
stress voltage levels applied during the manufacturing
process to provide for stable resistor performance even
under momentary overload conditions.
listed in the table may be specified by adding "-15" to the
model number (Example: MG750-15).
and overvoltage ratings do not apply to the "-15" resistors.
Resistance ranges for "-15" resistors shown in the table are
from "-15 Min." to "Standard Max."
Non-Inductive Performance
Non-Inductive Design which uses a serpentine resistive
pattern that provides for neighboring lines to carry current in
opposite directions, thereby achieving maximum cancellation
of flux fields over the entire length of the resistor.
efficient non-inductive construction is accomplished without
derating of any performance advantages.
Preconditioning for Power and Voltage Ratings
are for continuous duty.
stress voltage levels applied during the manufacturing
process to provide for stable resistor performance even
under momentary overload conditions.
listed in the table may be specified by adding "-15" to the
model number (Example: MG750-15).
and overvoltage ratings do not apply to the "-15" resistors.
Resistance ranges for "-15" resistors shown in the table are
from "-15 Min." to "Standard Max."
Non-Inductive Performance
Non-Inductive Design which uses a serpentine resistive
pattern that provides for neighboring lines to carry current in
opposite directions, thereby achieving maximum cancellation
of flux fields over the entire length of the resistor.
efficient non-inductive construction is accomplished without
derating of any performance advantages.
Preconditioning for Power and Voltage Ratings
are for continuous duty.
stress voltage levels applied during the manufacturing
process to provide for stable resistor performance even
under momentary overload conditions.
listed in the table may be specified by adding "-15" to the
model number (Example: MG750-15).
and overvoltage ratings do not apply to the "-15" resistors.
Resistance ranges for "-15" resistors shown in the table are
from "-15 Min." to "Standard Max."
Non-Inductive Performance
Non-Inductive Design which uses a serpentine resistive
pattern that provides for neighboring lines to carry current in
opposite directions, thereby achieving maximum cancellation
of flux fields over the entire length of the resistor.
efficient non-inductive construction is accomplished without
derating of any performance advantages.
Preconditioning for Power and Voltage Ratings
are for continuous duty.
stress voltage levels applied during the manufacturing
process to provide for stable resistor performance even
under momentary overload conditions.
listed in the table may be specified by adding "-15" to the
model number (Example: MG750-15).
and overvoltage ratings do not apply to the "-15" resistors.
Resistance ranges for "-15" resistors shown in the table are
from "-15 Min." to "Standard Max."
Non-Inductive Performance
Non-Inductive Design which uses a serpentine resistive
pattern that provides for neighboring lines to carry current in
opposite directions, thereby achieving maximum cancellation
of flux fields over the entire length of the resistor.
efficient non-inductive construction is accomplished without
derating of any performance advantages.
Preconditioning for Power and Voltage Ratings
are for continuous duty.
stress voltage levels applied during the manufacturing
process to provide for stable resistor performance even
under momentary overload conditions.
listed in the table may be specified by adding "-15" to the
model number (Example: MG750-15).
and overvoltage ratings do not apply to the "-15" resistors.
Resistance ranges for "-15" resistors shown in the table are
from "-15 Min." to "Standard Max."
Non-Inductive Performance
Non-Inductive Design which uses a serpentine resistive
pattern that provides for neighboring lines to carry current in
opposite directions, thereby achieving maximum cancellation
of flux fields over the entire length of the resistor.
efficient non-inductive construction is accomplished without
derating of any performance advantages.
Note: Actual width of current trace is based on
magnitude of current. Point of connection should
be in the area shown.
(8.89 �1.02)
(2.39 �.38)
(2.77 �.64)
(2.39 �.38)
(2.39 �.38)
(2.39 �.38)
(3.56 �.76)
(3.81 �.76)
(3.56 �.76)
(3.56 �.76)
(6.10 �.76)
(3.56 �.76)
(6.10 �.76)
(3.56 �.76)
(6.10 �.76)
(8.00 �.76)
(6.10 �.76)
(8.00 �.76)
(6.10 �.76)
(8.00 �.76)
(8.00 �.76)
(8.00 �.76)
(8.00 �.76)
(8.89 �1.02)
(2.39 �.38)
(2.77 �.64)
(2.39 �.38)
(2.39 �.38)
(2.39 �.38)
(3.56 �.76)
(3.81 �.76)
(3.56 �.76)
(3.56 �.76)
(6.10 �.76)
(3.56 �.76)
(6.10 �.76)
(3.56 �.76)
(6.10 �.76)
(8.00 �.76)
(6.10 �.76)
(8.00 �.76)
(6.10 �.76)
(8.00 �.76)
(8.00 �.76)
(8.00 �.76)
(8.00 �.76)
.350 �.040
Precision
.094 �.015
.109 �.025
.094 �.015
.094 �.015
.094 �.015
.140 �.030
.150 �.030
.140 �.030
.140 �.030
.240 �.030
.140 �.030
.240 �.030
.140 �.030
.240 �.030
.315 �.030
.240 �.030
.315 �.030
.240 �.030
.315 �.030
.315 �.030
.315 �.030
.315 �.030
(8.89 �1.02)
.350 �.040
(2.39 �.38)
.200 ±.012
(5.08 ±.30
(2.77 �.64)
.250 ±.012
(6.35 ±.30)
.094 �.015
(2.39 �.38)
.109 �.025
(2.39 �.38)
.094 �.015
(2.39 �.38)
.094 �.015
(3.56 �.76)
.094 �.015
(3.81 �.76)
.140 �.030
(3.56 �.76)
.150 �.030
(3.56 �.76)
.140 �.030
(6.10 �.76)
.140 �.030
(3.56 �.76)
.240 �.030
(6.10 �.76)
.140 �.030
(3.56 �.76)
.240 �.030
(6.10 �.76)
.140 �.030
(8.00 �.76)
.240 �.030
(6.10 �.76)
.315 �.030
(8.00 �.76)
.240 �.030
(6.10 �.76)
.315 �.030
(8.00 �.76)
.240 �.030
(8.00 �.76)
.315 �.030
(8.00 �.76)
.315 �.030
(8.00 �.76)
.315 �.030
.315 �.030
(8.89 ±1.02)
Resistor Value:
(2.39 ±.38)
(2.77 ±.64)
(2.39 ±.38)
(2.39 ±.38)
(2.39 ±.38)
(3.56 ±.76)
(3.81 ±.76)
(3.56 ±.76)
(3.56 ±.76)
(6.10 ±.76)
(3.56 ±.76)
(6.10 ±.76)
(3.56 ±.76)
(6.10 ±.76)
(8.00 ±.76)
(6.10 ±.76)
(8.00 ±.76)
(6.10 ±.76)
(8.00 ±.76)
(8.00 ±.76)
(8.00 ±.76)
(8.00 ±.76)
.350 �.040
(2.39 �.38)
.094 �.015
.109 �.025
.094 �.015
.094 �.015
.094 �.015
.140 �.030
.150 �.030
.140 �.030
.140 �.030
.240 �.030
.140 �.030
.240 �.030
.140 �.030
.240 �.030
.315 �.030
.240 �.030
.315 �.030
.240 �.030
.315 �.030
.315 �.030
.315 �.030
.315 �.030
(2.39 �.38)
(2.77 �.64)
(2.39 �.38)
(2.39 �.38)
.350 ±.040
All power ratings and maximum operating voltage ratings
Maximum operating voltages 60% higher than the values
Most models are manufactured with Caddock's
.094 ±.015
.109 ±.025
.094 ±.015
.094 ±.015
.094 ±.015
.140 ±.030
.150 ±.030
.140 ±.030
.140 ±.030
.240 ±.030
.140 ±.030
.240 ±.030
.140 ±.030
.240 ±.030
.315 ±.030
.240 ±.030
.315 ±.030
.240 ±.030
.315 ±.030
.315 ±.030
.315 ±.030
.315 ±.030
All power ratings and maximum operating voltage ratings
Maximum operating voltages 60% higher than the values
Most models are manufactured with Caddock's
.094 �.015
.109 �.025
.094 �.015
.094 �.015
.094 �.015
Note: Actual width of current trace is based on
Note: Actual width of current trace is based on
magnitude of current. Point of connection should
magnitude of current. Point of connection should
be in the area shown.
Note: Actual width of current trace is based on
be in the area shown.
magnitude of current. Point of connection should
be in the area shown.
All power ratings and maximum operating voltage ratings
Maximum operating voltages 60% higher than the values
Most models are manufactured with Caddock's
All power ratings and maximum operating voltage ratings
Maximum operating voltages 60% higher than the values
Most models are manufactured with Caddock's
Preconditioning for Power and Voltage Ratings
for continuous duty.
voltage levels applied during the manufacturing process to
provide for stable resistor performance even under momentary
overload conditions.
listed in the table may be specified by adding "-15" to the model
number (Example: MG750-15).
overvoltage ratings do not apply to the "-15" resistors.
Resistance ranges for "-15" resistors shown in the table are from
"-15 Min." to "Standard Max."
Non-Inductive Performance
Inductive Design which uses a serpentine resistive pattern that
provides for neighboring lines to carry current in opposite
directions, thereby achieving maximum cancellation of flux fields
over the entire length of the resistor. This efficient non-inductive
construction is accomplished without derating of any
performance advantages.
All power ratings and maximum operating voltage ratings
Maximum operating voltages 60% higher than the values
Most models are manufactured with Caddock's
.200 ±.012
(5.08 ±.30
.200 ±.012
(5.08 ±.30
.250 ±.012
(6.35 ±.30)
.250 ±.012
.200 ±.012
(6.35 ±.30)
(5.08 ±.30
.250 ±.012
(6.35 ±.30)
B
B
A
B
B
B
All power ratings and maximum operating voltage ratings are
Maximum operating voltages 60% higher than the values
Most
A
A
A
Caddock's Non-inductive Serpentine Pattern
:
Dimensions in inches and (millimeters)
(1.02 �.05)
(1.02 �.05)
(1.02 �.05)
(1.02 �.05)
(1.02 �.05)
(1.02 �.05)
(1.02 �.05)
(1.02 �.05)
(1.02 �.05)
(1.02 �.05)
(1.02 �.05)
(1.02 �.05)
(1.02 �.05)
(1.02 �.05)
(1.02 �.05)
(1.02 �.05)
(1.02 �.05)
(1.02 �.05)
(1.02 �.05)
(1.02 �.05)
(1.02 �.05)
(1.02 �.05)
(1.02 �.05)
(1.02 �.05)
Dimensions in inches and (millimeters)
Dimensions in inches and (millimeters)
.025 �.002
.025 �.002
Dimensions in inches and (millimeters)
.025 �.002
.025 �.002
.025 �.002
.025 �.002
.032 �.002
.025 �.002
.025 �.002
.040 �.002
.025 �.002
.040 �.002
.025 �.002
.040 �.002
.040 �.002
.040 �.002
.040 �.002
.040 �.002
.040 �.002
.040 �.002
.040 �.002
.040 �.002
.040 �.002
.025 �.002
.025 �.002
.025 �.002
.025 �.002
.025 �.002
.025 �.002
.032 �.002
.025 �.002
.025 �.002
.040 �.002
.025 �.002
.040 �.002
.025 �.002
.040 �.002
.040 �.002
.040 �.002
.040 �.002
.040 �.002
.040 �.002
.040 �.002
.040 �.002
.040 �.002
.040 �.002
(.64 �.05)
(.64 �.05)
(.64 �.05)
(.64 �.05)
(.64 �.05)
(.64 �.05)
(.81 �.05)
(.64 �.05)
(1.02 ±.05)
(.64 �.05)
(1.02 ±.05)
(1.02 �.05)
(.64 �.05)
(1.02 ±.05)
(1.02 �.05)
(1.02 ±.05)
(.64 �.05)
(1.02 ±.05)
(1.02 �.05)
(1.02 ±.05)
(1.02 �.05)
(1.02 ±.05)
(1.02 �.05)
(1.02 ±.05)
(1.02 �.05)
(1.02 ±.05)
(1.02 �.05)
(1.02 ±.05)
(1.02 �.05)
(1.02 ±.05)
(1.02 �.05)
(1.02 ±.05)
(1.02 �.05)
(1.02 �.05)
(1.02 �.05)
(.64 �.05)
(.64 �.05)
(.64 �.05)
(.64 �.05)
(.64 �.05)
(.64 �.05)
(.81 �.05)
(.64 �.05)
(.64 �.05)
(.64 �.05)
(.64 �.05)
.025 ±.002
.025 ±.002
.025 �.002
.025 ±.002
.025 �.002
.025 ±.002
.025 �.002
.025 ±.002
.025 �.002
.025 ±.002
.025 �.002
.032 ±.002
.025 �.002
.025 ±.002
.032 �.002
.025 ±.002
.040 ±.002
.025 �.002
.025 ±.002
.025 �.002
.040 ±.002
.040 �.002
.025 ±.002
.025 �.002
.040 ±.002
.040 �.002
.040 ±.002
.025 �.002
.040 ±.002
.040 �.002
.040 ±.002
.040 �.002
.040 ±.002
.040 �.002
.040 ±.002
.040 �.002
.040 ±.002
.040 �.002
.040 ±.002
.040 �.002
.040 ±.002
.040 �.002
.040 ±.002
.040 �.002
.040 �.002
.040 �.002
N
(.64 ±.05)
(.64 ±.05)
(.64 �.05)
(.64 ±.05)
(.64 �.05)
(.64 ±.05)
(.64 �.05)
(.64 ±.05)
(.64 �.05)
(.64 ±.05)
(.64 �.05)
(.81 ±.05)
(.64 �.05)
(.64 ±.05)
(.81 �.05)
(.64 ±.05)
(.64 �.05)
(.64 ±.05)
(.64 �.05)
(.64 ±.05)
(.64 �.05)
(.64 �.05)
.025 �.002
.025 �.002
.025 �.002
.025 �.002
.025 �.002
(.64 �.05)
(.64 �.05)
(.64 �.05)
(.64 �.05)
(.64 �.05)
.150 ±.012
(3.81 ±.30)
.200 ±.012
(5.08 ±.30)
C
C
C
C
C
models
Most models are available with
B
.150 ±.012
(3.81 ±.30)
.150 ±.012
(3.81 ±.30)
.200 ±.012
(5.08 ±.30)
.200 ±.012
.150 ±.012
(5.08 ±.30)
(3.81 ±.30)
.200 ±.012
(5.08 ±.30)
CD2015FC Standard Resistance Values:
CD2520FC Standard Resistance Values:
Custom resistance values and non-standard tolerances
can be manufactured for high quantity applications.
Please contact Caddock Applications Engineering.
Tolerance CD2015FC ±1% Standard.
Tolerance CD2520FC ±1% Standard.
B
B
B
Non-inductive performance
with Caddock's exclusive design
Custom resistance values and non-standard tolerances
Custom resistance values and non-standard tolerances
can be manufactured for high quantity applications.
can be manufactured for high quantity applications.
Please contact Caddock Applications Engineering.
Please contact Caddock Applications Engineering.
Custom resistance values and non-standard tolerances
can be manufactured for high quantity applications.
Please contact Caddock Applications Engineering.
CD2015FC Standard Resistance Values:
CD2015FC Standard Resistance Values:
CD2015FC Standard Resistance Values:
CD2520FC Standard Resistance Values:
CD2520FC Standard Resistance Values:
CD2520FC Standard Resistance Values:
Tolerance CD2015FC ±1% Standard.
Tolerance CD2015FC ±1% Standard.
Tolerance CD2015FC ±1% Standard.
Tolerance CD2520FC ±1% Standard.
Tolerance CD2520FC ±1% Standard.
Tolerance CD2520FC ±1% Standard.
Specifications:
Resistance Tolerance:
Temperature Coefficient:
Insulation Resistance: 10,000 Megohms, min.
Overload/Overvoltage: 5 times rated power
with applied voltage not to exceed 1.5 times max-
imum continuous operating voltage for 5 seconds.
Type 1: DC Voltage
Type 2: DC Voltage or V
Thermal Shock:
Cond. C, ΔR 0.25% max.
Moisture Resistance: Mil-Std-202, Method 106,
ΔR 0.4% max.
Load Life:
voltage, not to exceed rated power.
Solderable Leads
Encapsulation: High Temperature Silicone Conformal.
Temperature Coefficient:
Thermal Shock:
Cond. C, ΔR 0.25% max.
Moisture Resistance: Mil-Std-202, Method 106,
ΔR 0.4% max.
Load Life:
voltage, not to exceed rated power.
Solderable Leads
Encapsulation: High Temperature Silicone Conformal.
Specifications:
Resistance Tolerance:
Insulation Resistance: 10,000 Megohms, min.
Overload/Overvoltage: 5 times rated power
with applied voltage not to exceed 1.5 times max-
imum continuous operating voltage for 5 seconds.
Type 1: DC Voltage
St'd with "-15" rating
Type 2: DC Voltage or V
St'd with "-15" rating
Resistance Range
St'd with "-15" rating
Temperature Coefficient:
St'd with "-15"
Resistance Range
Thermal Shock:
Cond. C, ΔR 0.25% max.
Moisture Resistance: Mil-Std-202, Method 106,
ΔR 0.4% max.
Load Life:
voltage, not to exceed rated power.
Solderable Leads
Encapsulation: High Temperature Silicone Conformal.
St'd with "-15" rating
Specifications:
Resistance Tolerance:
Specifications:
Resistance Tolerance:
Temperature Coefficient:
St'd with "-15" rating
Standard and
Insulation Resistance: 10,000 Megohms, min.
Overload/Overvoltage: 5 times rated power with
applied voltage not to exceed 1.5 times max-
imum continuous operating voltage for 5 seconds.
Insulation Resistance: 10,000 Megohms, min.
Overload/Overvoltage: 5 times rated power
with applied voltage not to exceed 1.5 times max-
imum continuous operating voltage for 5 seconds.
Type 1: DC Voltage
Thermal Shock:
Type 2: DC Voltage or V
Cond. C,
Moisture Resistance: Mil-Std-202, Method 106,
∆
Load Life:
voltage, not to exceed rated power.
Solderable Leads
Encapsulation:
Conformal.
Specifications:
St'd with "-15" rating
Standard and
St'd with "-15"
St'd with "-15" rating
Resistance Range
Resistance Range
Resistance Range
Temperature Coefficient:
Resistance Range
St'd with "-15" rating
Resistance Range
MG750 -100M - 1%
St'd with "-15" rating
Specifications:
Resistance Tolerance:
Resistance
St'd with "-15" rating
St'd with "-15" rating
St'd with "-15" rating
St'd with "-15"
Resistance
Resistance Range
Extended Range
Standard and
0.010 Ω
0.015 Ω
0.020 Ω
0.025 Ω
Resistance Range
Extended Range
Resistance Range
Resistance Range
Resistance Range
R 0.4% max.
Extended Range
.063 ±.006
(1.60 ±.15)
.063 ±.006
St'd with "-15"
0.010 Ω
0.015 Ω
0.020 Ω
0.025 Ω
Extended Range
St'd with "-15" rating
(1.60 ±.15
Extended Range
Standard and
Resistance
Extended Range
Extended
Resistance Range
Extended
Extended Range
Extended Range
Extended Range
Extended Range
Resistance
Extended Range
Resistance
are
Extended Range
Range
Extended
Range
Range
Extended Range
Range
Extended
rating
Range
rating
Range
Range
Range
Standard
C
rating
Standard
Range
Standard
0.010 Ω
0.015 Ω
0.010 Ω
0.020 Ω
0.015 Ω
0.025 Ω
0.020 Ω
0.010 Ω
0.025 Ω
0.015 Ω
0.020 Ω
0.025 Ω
Standard
Standard
0.010 Ω
0.015 Ω
0.010 Ω
0.020 Ω
0.015 Ω
0.025 Ω
0.020 Ω
0.010 Ω
0.025 Ω
0.015 Ω
0.020 Ω
0.025 Ω
.063 ±.006
(1.60 ±.15)
.063 ±.006
(1.60 ±.15)
.063 ±.006
.063 ±.006
.063 ±.006
Standard
(1.60 ±.15)
.063 ±.006
rating
Standard
(1.60 ±.15
(1.60 ±.15
(1.60 ±.15
Standard
Standard
These ratings are based on pre-stress
Standard
Standard
e-mail: sales@rhopointcomponents.com
Standard
Standard
These ratings are based on pre-
These ratings are based on pre-
MG
C
C
C
These ratings are based on pre-
These ratings are based on pre-
manufactured
e-mail: sales@rhopointcomponents.com
These ratings are based on pre-
e-mail: sales@rhopointcomponents.com
e-mail: sales@rhopointcomponents.com
e-mail: sales@rhopointcomponents.com
web: www.rhopointcomponents.com
Email
∆
web: www.rhopointcomponents.com
e-mail: sales@rhopointcomponents.com
R 0.25% max.
web: www.rhopointcomponents.com
Web
Hurst Green
(1.57 min.)
(1.98 min.)
0.030 Ω
0.033 Ω
0.040 Ω
0.050 Ω
0.030 Ω
0.033 Ω
0.040 Ω
0.050 Ω
.062 min.
.078 min.
1,000 hours at +125°C at rated
1,000 hours at +125°C at rated
web: www.rhopointcomponents.com
web: www.rhopointcomponents.com
web: www.rhopointcomponents.com
1,000 hours at +125°C at rated
1,000 hours at +125°C at rated
•
�80 ppm/�C from -15�C to +105�C,
referenced to +25�C.
�80 ppm/�C from +25�C to +105�C,
-200 ppm/�C to +50 ppm/�C from
-15�C to +25�C.
D
�80 ppm/�C from -15�C to +105�C,
referenced to +25�C.
�80 ppm/�C from +25�C to +105�C,
-200 ppm/�C to +50 ppm/�C from
-15�C to +25�C.
Riverside, California 92507-2364
Riverside, California 92507-2364
±80 ppm/°C from +25°C to +105°C,
-200 ppm/°C to +50 ppm/°C from
-15°C to +25°C.
�80 ppm/�C from -15�C to +105�C,
referenced to +25�C.
�80 ppm/�C from +25�C to +105�C,
-200 ppm/�C to +50 ppm/�C from
-15�C to +25�C.
•
(1.57 min.)
(1.57 min.)
(1.98 min.)
(1.98 min.)
(1.57 min.)
±80 ppm/°C from -15°C to +105°C,
referenced to +25°C.
(1.98 min.)
0.030 Ω
0.033 Ω
0.030 Ω
0.040 Ω
0.033 Ω
0.050 Ω
0.040 Ω
0.030 Ω
0.050 Ω
0.033 Ω
0.040 Ω
0.050 Ω
0.030 Ω
0.033 Ω
0.030 Ω
0.040 Ω
0.033 Ω
0.050 Ω
0.040 Ω
0.030 Ω
0.050 Ω
0.033 Ω
0.040 Ω
0.050 Ω
Riverside, California 92507-2364
sales@rhopointcomponents.com
.062 min.
.062 min.
.078 min.
.078 min.
.062 min.
.078 min.
www.rhopointcomponents.com
High Temperature Silicone
Type
D
D
D
Mil-Std-202, Method 107,
Mil-Std-202, Method 107,
Sales and Corporate Office
Note that overload and
�1%, �0.5%, �0.25%, �0.1%
Mil-Std-202, Method 107,
Sales and Corporate Office
�1%, �0.5%, �0.25%, �0.1%
Mil-Std-202, Method 107,
±1%, ±0.5%, ±0.25%, ±0.1%
Overload/Overvoltage, �R
Sales and Corporate Office
Overload/Overvoltage, ∆R
Overload/Overvoltage, �R
�1%, �0.5%, �0.25%, �0.1%
rms
rms
�1%, �0.5%, �0.25%, �0.1%
Overload/Overvoltage, �R
TC Specifications
TC Specifications
rms
TC Specifications
TC Specifications
•
Note that overload
Note that overload
0.075 Ω
0.10 Ω
0.20 Ω
Solderable Pedestal
TC Specifications
Solderable Pedestal
0.075 Ω
0.10 Ω
0.20 Ω
AC
Fax: +44 (0)1883 712938
AC
Note that overload
with
Tolerance
Note that overload
Tel: +44 (0)1883 717988
Fax: +44 (0)1883 712938
Phone: (951) 788-1700
AC
Note that overload
Surrey
Phone: (951) 788-1700
Tel: +44 (0)1883 717988
Load Life, �R
Phone: (951) 788-1700
Load Life, �R
1717 Chicago Avenue
Comments
Load Life, ∆R
1717 Chicago Avenue
0.5% max.
0.8% max.
0.5% max.
0.8% max.
Load Life, �R
0.5% max.
0.8% max.
0.8% max.
1717 Chicago Avenue
0.5% max.
0.8% max.
0.8% max.
Tolerance
0.5% max.
0.8% max.
0.8% max.
Tolerance
0.5% max.
0.8% max.
Fax: (951) 369-1151
0.5% max.
0.8% max.
Fax: (951) 369-1151
0.075 Ω
0.10 Ω
0.075 Ω
0.20 Ω
0.10 Ω
0.20 Ω
0.075 Ω
0.10 Ω
0.20 Ω
0.5% max.
0.8% max.
0.8% max.
Tolerance
Solderable Pedestal
Solderable Pedestal
Solderable Pedestal
Tolerance
Solderable Pedestal
Solderable Pedestal
Solderable Pedestal
0.075 Ω
0.10 Ω
0.075 Ω
0.20 Ω
0.10 Ω
0.20 Ω
0.075 Ω
0.10 Ω
0.20 Ω
Fax: (951) 369-1151
Tolerance
27.1 IL107.0802
N/A
�1%
�1%
N/A
�1%
�1%
Page 1 of 2
N/A
�1%
�1%
Caddock's Non-
Comments
±1%
Comments
±1%
Comments
N/A
�1%
�1%
•
RH8 9AX
27.1 IL107.0802
27.1 IL107.0802
27.1 IL107.0802
Page 1 of 2
Page 1 of 2
Page 1 of 2
Page 1 of 2
Page 2 of 2
28_IL110.1004
28_IL110.1004
28_IL110.1004
Page 1 of 2
Page 1 of 2
IL-110.0201
Page 1 of 2
Page 1 of 2
IL-110.019
Page 1 of 2
This
This
This
This
•
This
UK
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CD2015FC Summary of contents
Page 1
... Extended .025 ±.002 CD2015FC Standard Resistance Values: (.64 �.05) -200 ppm/°C to +50 ppm/°C from Standard and .025 �.002 Tolerance CD2015FC ±1% Standard. (.64 �.05) Range Standard and 0.010 Ω 0.030 Ω (.64 ±.05) �80 ppm/�C from -15�C to +105�C, 0.075 Ω ...
Page 2
... Packaging information: Style FC, flip chip resistors, are shipped with the bare Range (.64 �.05) .025 �.002 Tolerance CD2015FC ±1% Standard. Packaging information: Extended Range Standard �1%, �0.5%, �0.25%, �0.1% ceramic side up in the pocket, with the solderable pedestals .025 �.002 Style FC, flip chip resistors, are shipped with the bare (.64 � ...