to Solder Pad (C)
θJC
(7.95
�½.020
(2.77
�½.015
.025
�½.002
at 70°
±.64)
Resistance Range
Tolerance
(.64
±.05)
St'd
C
with "-15" rating
±1%
.313
±.76)
0.5
600
Min.
Type 1
200
�½
C
N/A
Film (J)
Meg
Solder Pad (C)
N/A
750
MG650
Model
Comments
Resistance Range
Tolerance
Temperature
.094
�½.38)
B
D
Film
5
(J)
Resistance
at
note
Thermal
to
Information
Max. Chip
600
200
Rating
5 Meg
750
Power
�½
C
N/A
Type
Max.
1
MG650
0.5
(see
(see
70°
1)
Power Capability
note 2)
N/A
-
R
θJC
(7.95
�½.51)
(2.39
A
�½.38)
(.64
�½.05)
Model
MG 745
(7.95
�½.51)
(2.39
±.015
.025
�½.05)
B
(.64
±.002
Min.
Max.
.500
±.030
.094
A
C
Range
D
(see note Pad
note
Temperature
.109
�½.025
at 70° C
Extended
.062 min.
�½1%, �½0.5%, �½0.25%, �½0.1%
±1%
.6
1,000
750
(see
400
Ω
1)
N/A
Film (J) to Solder2)
N/A
(C)
Dimensions in inches and (millimeters)
10 Meg
MG 660
Standard
(2.39
�½.025
.150
±.012
.063
and (millimeters)
.313
�½.030
Resistance
(.64
±.05)
(12.70
�½.030
.200
±.012
Dimensions
Standard
�½1%, �½0.5%, �½0.25%,
Max.
Resistance
Ω
750
.109
±.38)
.025
�½.002
Min.
Max.
A
C
0.010
Ω
Type
0.20
1.0
�½
150°C
.313
±.76)
(5.08
±.30
0.5
600
200
Watt
N/A
88Meg
note
N/A
Power Applications
(7.95
�½.76)
(2.77
�½.64)
.025
�½.002
B in inches
±.006
±.006
(1.57 min.)
D
min.
Solderable Pedestal
�½0.1%
General Applications High
12.0°C/Watt
N/A
MG655
CD2015FC
(see
2)
Model
.200
±.012
(.64
�½.05)
±.012
(1.60
.063
.150
.062
Type1
1
±.15)
(3.81
±.30)
0.5
600
750
200
�½
Meg
MG655
Watt- Continuous
Overload
Ω
Dielect.
(see note 1)
N/A
Comments
CD2015FC
0.010
Ω
Rating
Strength
Power
Watt
-15
0.20
1.0
Rating
150°C
12.0°C/Watt
Solderable Pedestal
Temperature Coefficient:
Standard Extended
.750
±.030
Thermal Resistance -
R
θJC
(7.95
�½.76)
(2.77
�½.64)
.025
�½.05)
±.30)
Max. Chip
.094
±.015
(.64
±.002
No.
Model
680
age Oper. Volt.
A
B
C
.150
St'd with "-15" rating
min.
min.
�½1%
(5.08
±.30
.200
(3.81
(1.60
±.15)
.078
(1.57
.8
2,000
750
Min.
Ω
600
20 Meg
N/A
N/A
MG
.200
±.012
(.64
±.05)
±.012
St'd with "-15"
Tolerance:
.063
±.006
rating
.062 min.)
±.012
Resistance
±.38)
Max.
Max.
.500
�½.030
.250
±.012
Temperature
(2.39
�½.015
.025
�½.002
CD2015FC
0.010
Ω
1.0 Watt
150°C
12.0°C/Watt
Solderable
MG 731
Film (J) to Solder Pad (C)
(19.05
�½.030
.094
�½.015
.025
�½.002
±.30)
.063
±.006
±.15)
at
�½
0.010
0.20
Ω
Solderable
�½1%
Pedestal
Pedestal
150°C
±.76)
(6.35
±.30)
1.5 Watts
N/A
CD2520FC
1,000
Ω
Type
0.20
Ω
750
.094
±.012
(5.08
±.30)
1
.500
400
70° C
Min.
10
9.0°C/Watt
N/A
Meg
MG660 0.6
(1.57 min.)
(5.08
±.30
(3.81
±.012
(1.60
.063
C
(1.60
±.006
±.15
Resistance
(1.98 min.)
D
min.
.200
.078
.250
A
Min.
1
1,000
Ω
Type
Max.
400
�½
10
(see note
N/A
Meg
(12.70
�½.76)
(2.39
�½.38)
MG660 0.6
2)
0.010
0.20
Ω
750
(see note 1)
N/A
Solderable
9.0°C/Watt
150°C
1.5 Watts
1.000
�½.76)
(2.39
�½.38)
(.64
�½.002
B
CD2520FC
�½1%
.313
±.040
.094
±.015
.025
�½.05)
±.30)
Extended
±.15
(12.70
�½.020
.094
�½.015
.025
�½.05)
±.012
Resistance
Range
(1.98 min.
TC Specifications
Tolerance
Pedestal
(6.35
±.30)
(.64
±.002
(5.08
(1.60
1.0
4,000
750
200
�½
Ω
N/A
800
N/A
N/A
MG
Range
Range
Extended
Range
.078 min.)
�½1%
5
50 Meg
N/A
Meg
750
Type 1
MG650
0.5
710
600
.200
.063
±.006
.250
±.012
(.64
�½.05)
±.38)
±1.02)
(25.40
�½.51)
(2.39
�½.015
.025
�½.002
±.012
(7.95
�½.030
.094
�½.38)
0.010
Ω
0.20
Ω
Solderable Pedestal
9.0°C/Watt
150°C
1.5 Watts
.750
�½.030
(2.39
�½.015
.025
�½.002
±.30)
CD2520FC
.200
±.30)
(.64
±.05)
.150
.063
±.006
.062 min.)
.094
±.012
(6.35
(5.08
(1.60
±.15
(1.98 min.
.750
MG680 0.8
CD2015FC
0.010
1.0
�½
150°C
12.0°C/Watt
2,000
750
20Meg
Meg
N/A
(19.05
�½.76)
(2.39
�½.38)
MG680 0.8
Type1
1
Style
MG 712
Derating
0.20
Ω
750
750
600
�½
Ω
N/A
Application
FC
2,000
.6
Ω
Type
Curve For
600
Watt
N/A
General
20
20 Meg
N/A
Standard
�½1%,
.400
�½.76)
(2.39
�½.38)
(.64
�½.002
±.060
.140
±.030
.025
�½.05)
(1.57
ppm/°C
Solderable Pedestal
min.)
�½0.5%,
-15°C to +105°C,
(5.08
±.30
(.64
±.002
Temperature
(3.81
(1.60
±.15)
.313
�½.030
.109
�½.025
.025
�½.05)
±.30)
Standard and
Coefficient:
from
�½0.25%, �½0.1%
(19.05
±80
1,000
800
N/A
N/A
Temperature Coefficient:
Type 1
600
750
200
�½
8 Meg
N/A
N/A
MG655
(3.56
±.76)
(.64
�½.05)
MG 740
0.5
with "-15"
(10.16
±.152)
.094
�½.64)
(7.95
�½.76)
.200
.078 min.
.250
±.012
(.64
±.05)
1.000
�½.040
(2.77
�½.015
.025
�½.002
±.012
St'd
.063
±.006
referenced to +25°C.
Pedestal
.094
�½.015
.025
�½.002
1.000
�½.040
(2.39
�½.38)
4,000
Ω
Type
0.20
Ω
750
800
Watts
N/A
50 Meg
N/A
0.010
Solderable
9.0°C/Watt
150°C
1.5
�½
1
MG710
100
1.0
CD2520FC
rating
St'd with "-15"
�½1%
.150
±.030
for
�½.05)
±.30)
Resistance
rating
(1.98 min.)
1.0
714
4,000
750
800
�½
Ω
N/A
General Applications -
.562
�½.030
.094
rating
.025
�½.002
50 Meg
N/A
Type 1
MG710
(25.40
�½1.02)
(2.39
�½.015
(.64
�½.05)
(5.08
(1.60
±.15
1:
The power
(6.35
±.30)
.032
±.002
Resistance
CD2015FC Standard Resistance Values:
.500
±.060
TC Specifications
1.0
1,000
750
400
Note
N/A
Meg
10
20 Meg
N/A
200
N/A
6.5
MG
(25.40
�½1.02)
(3.81
�½.38)
(.64
±.05)
±.76)
Type 1
1,000
750
�½
Meg
(.81
(14.27
±1.52)
(2.39
�½.030
MG660 0.6
TC Specifications
Range
100
�½.38)
.025
�½.002
Tolerance
Range
(12.70
�½.76)
.140
Note 1: General Applications -
The power
(300
.025
�½.002
.400
�½.060
general applications is based upon
�½.060
sq.
.140
�½.030
(.64
�½.05)
CD2015FC Standard Resistance Values:
in.
rating for
CD2015FC
Extended Range
±80
ppm/°C from +25°C to +105°C,
�½1%
Type 2
.400
0.5
1,000
750
�½
MG712
80
0.6
Extended
±1%
Standard.
.140
100
MG
Type 2
750 800
Note
N/A
Meg
20
50 Meg
N/A
�½
N/A
20Meg
Meg
N/A
(10.16
�½.152)
.094
�½.015
(.64
�½.05)
MG712
0.6
715
1,000
1:
-
±.060
(3.56
±.030
.025
±.002
Standard and
0.030
-200 ppm/°C to +50 ppm/°C from
1.0
2,000
750
800
general
termination pad
N/A
trace
.750
�½.030
power
±.76)
.025
�½.05)
400
Ω
2
) of
applications is based
(19.05
�½.152)
(3.56
�½.76)
(300 for
26
.750
±1.52)
sq. rating
(10.16
The
oz.
in.
MG 750
0.8
upon
(2
(3.56
�½.76)
(.64
±.05)
Tolerance CD2015FC
Ω
±1%
Resistance Values:
80
or
mm
N/A
General Applications
area
0.5
(2.39
copper)
(.64
�½.002
CD2015FC Standard
Standard.
-15�½C to +105�½C,
Range
0.010
Ω
and
0.075
Ω
Standard
�½80
ppm/�½C from
600
�½
2,000
750
20 Meg
N/A
MG680
60
Type 1
�½.38)
-15°C
(19.05
�½.76)
.150
�½.030
.032
�½.05)
(.64
St'd with
CD2015FC
Ω
±1%
to +25°C.
2
general applications
N/A
based
.562
�½.060
(3.81
�½.76)
(300
�½.002
Tolerance
"-15"
0.033
�½80
ppm/�½C from -15�½C to +105�½C,
is
of
upon
0.015
Ω
Standard.
80
1.0
St'd with "-15"
.562
area
.150
�½.030
.032
±.002
750
200
connected to
20 Meg
�½
6.5 Meg
MG714
Type 2
referenced
0.10
Ω
0.075
1.000
�½.060
sq. in.
±.060
.140
±.030
.025
each
resistor.
0.5
.094
�½.015
(.81
�½.002
Temperature Coefficient:
to +25�½C.
Ω
0.010
0.030
Ω
to +25�½C.
1.0
716
1,000
1,000
750
�½
Meg
MG714
Type 2
1.5
4,000
750
200
mm
6.5
of
Meg
20 Meg
end
N/A
the
trace
�½1.52)
Maximum chip
�½.05)
600
Ω
2
)
70
termination pad or
(14.27
�½.040
(2 oz. copper)
�½.05)
75 Meg
N/A
MG
rating
Ω
Resistance:
10,000 Megohms, min.
60
100
1.0
1.000
The power
±.76)
.025
�½.002
0.020
Ω
Ω
(14.27
area (2 oz. rating for
(.81
(.64
(25.40
�½1.52)
(3.81
�½.76)
±1.52)
(3.56
copper)
±.05)
CD2015FC Standard Resistance Values:
Insulation
0.040
referenced
Ω
0.075
Ω
rating
Ω
Note 1: General Applications -
trace
�½1.02)
.140
�½.38)
(.64
�½.05)
mm ) of termination pad orthe
.750
�½.060
(2.39
�½.030
.025
�½.002
0.015
0.033
4,000
750
800
temperature
to each end of
Derating Curve
Maximum chip
�½
50
150°C.
N/A
Meg
N/A
0.010
0.030
Ω
0.20
0.10
Ω
Type 1
MG710
40
Use
(25.40
to
Resistance
connected
is
resistor.
.140
derate
60
0.025
Ω
0.050
Ω
.710
±.050
.750
�½.060
sq.
�½.030
.025
±.002
750
�½
MG715 1.0
717
2,000
Type 2
0.020
0.040
Ω
TC
0.015
0.033
�½80
ppm/�½C
Specifications
power
+25�½C
0.10
upon
40
MG 780
MG
80
1.5
2,000
750
400
general
Meg
to
for
150°C. based
ambient
(3.56
�½.76)
derate
�½.002
Tolerance CD2015FC
±1%
Standard.
+25�½C to +105�½C,
600
Ω
26
17
applications
N/A
of Derating0.5
.140
�½.030
(300chip
Meg
225
Range
Ω
connected
50Meg
maximum
(19.05
�½1.52)
Curve in.
.025
�½.05)
resistor.
.240
±.030
.040
±.05)
Maximum
(.64
2,000
750 400
appropriately
50
each endUsethe
(18.03
�½1.52)
temperature
(1.02
�½.002
�½
26Meg
Meg
N/A
Overload/Overvoltage:
5
from
0.20
rated
+105�½C,
with
Meg
MG715
20
1.0
Type 2
�½80
ppm/�½C
times
Ω
to
from
Extended
Ω
±.76)
temperature
20
75
the
is
M
(19.05
�½.060
(3.56
�½.76)
(.64
�½.05)
is
Meg
.400
±1.27)
(6.10
to
Extended
0.025
0.050
Ω
0.020
0.040
-200 ppm/�½C to +50 ppm/�½C from
0.20
Ω
Type 2
1,000
750
800
�½
2
N/A
N/A
MG712
0.6
40
-200
to exceed 1.5 times
Range
Ω
applied
and
not
to +25�½C. +50
Ω
oz.
mm ) of
temperature
Use trace
�½.060
Curve
�½.030
derate
�½.05)
0.010
0.030
Ω
1.000
area
(3.56
�½.76)
temperature
75
for
Standard
voltage
-15�½C ppm/�½C to
0.075
ppm/�½C from
max-
and for
N/A
termination pad or Derating
the
(2
.140
�½.030
.025
�½.002
CD2520FC Standard Resistance Values:
Page 1 of 2
the
is 150°C.
N/A
(10.16
�½.152)
(3.56
�½.76)
(.64
�½.002
limitations of
1.500
±.080
.140
tocopper)
.140
±.030
.025
Range
Ω
0.025
0.050
Ω
60
1.000
�½.060
adjacent
.025
±.002
temperature
Type 2
�½
K
70 Meg
750
MG716
0
1.5
720
4,000
20
2.0
6,000
750
600
appropriately
75Meg
the
N/A
150 Meg
maximum ambient
.150
�½.030
(.64
�½.05)
�½80
ppm/�½C from
MG
Type 2
4,000
750 600
1
�½
70 Meg
Meg
N/A
(25.40
�½1.52)
(3.56
�½.76)
.032
�½.002
MG716 1.5
0.015
Ω
0.033
to
(.64
±.05)
(38.10
�½1.52)
(3.56
±.76)
±2.03)
temperature
�½.05)
Tolerance
with "-15"
Standard Resistance Values:
imum continuous
-15�½C
Ω
+25�½C.
-15�½C to +105�½C,
operating
0.10
Ω
St'd
CD2520FC
±1%
Standard.
voltage for 5 seconds.
.562
�½.060
(25.40
connected temperature
appropriately each end limitations of theMaximum
(.64
maximum ambient
.240
adjacent chip
CD2520FC
20
1.0
25
1,000
70
Type 2
750
150
200
materials.
to for the
N/A
of the resistor.
(3.81
�½.030
�½
6.5 Meg
20 Meg
MG714
referenced to +25�½C.
Ω
100
and for the
�½.76)
.040
�½.002
0.020
Ω
0.040
Ω
0.20
�½1.52)
(14.27
�½.050
(.81
�½.05)
.240
±.030
.040
±.002
Insulation Resistance:
10,000 Megohms, min.
.710
�½.050
rating
40
1.000
±.050
.240
�½.030
.040
�½.002
CD2520FC Standard Resistance Values:
MG
0
1.5
721
2,000
785
MG
0.010
Ω
CD2520FC
Ω
0.030
±1%
Standard.
.710
750
MG717
2.0
4,000
200
100 Meg
o
750
600
�½
Ω
17
51 Meg
temperature limitations of the adjacent
temperature
75 Meg 225 M
M
(18.03
�½1.27)
(6.10
�½.030
(1.02
±.05)
Tolerance
Ω
Range
0.050
Overload/Overvoltage,
∆R
min.
Insulation Resistance:
0.075
Ω
Megohms,
10,000
for the is 150°C.
300
Resistance
(6.10
±.76)
(1.02
0.025
Ω
C
1.5
AMBIENT TEMPERATURE,
750
2,000
70
Type 2
600
and
17Meg
�½
M
Meg
Type 2
MG717
(25.40
�½1.27)
.140
�½.76)
.025
�½.002
±1.27)
(6.10
to
materials.
75 Meg 225
Use Derating Curve
�½.76)
derate
�½.05)
25
2,000
100
150
400
�½
26 Meg
.750
0.015
Ω
0.033
Ω
(18.03
�½.060
(1.02
�½.05)
0
0.10
Ω
±1%
Standard.
+25�½C to
750
50 Meg
MG715 1.0
Type 2
�½80
ppm/�½C
appropriately
200 Meg
N/A
maximum ambient
(3.56
�½.030
.025
�½.002
Tolerance CD2520FC
0.030
Ω
0.20
Ω
times rated power
temperature
±.002
Overload/Overvoltage:
55 times
max.
+105�½C,
0.010
.140
20
(19.05
�½.080
materials.
150
for the
N/A
.025
2.000
±.080
.140
±.030
(.64
�½.05)
1.500
�½1.52)
.140
�½.76)
o
750
100
Extended
Ω
0.020
Standard
0.040
Ω
Ω
0.5%
Overload/Overvoltage:
from
0.075
Ω
rated power
2.5
10,000
1.5
N/A
N/A
MG 725
C
1.500
±2.03)
(3.56
�½.030
.025
±.05)
Meg
MG720
2.0
AMBIENT TEMPERATURE,
-
750
High
K
Power Applications where the
(50.80
�½.080
(3.56
material
(.64
�½.002
CD2520FC Standard Resistance Values:
Note
2.0
Thermal
70
Type 22
2:
25
6,000
Resistance
750
150
11K
K
N/A
In
circuit board
�½.76)
(.64
�½.05)
-200 ppm/�½C to +50 ppm/�½C from
max-
±.76)
0.015
0.010
0.030
Type
6,000
Meg
N/A
N/A
(38.10
�½2.03)
.140
�½.030
.025
�½.05)
MG720
0.10
0.075
with
Range
Ω
voltage not
Ω
to exceed 1.5 times max-
0.025
Ω
Ω
o
and
70 Meg
150Meg
1.000
�½.060
(.64
(38.10
�½2.03)
(3.56
�½.76)
withapplied voltage not
+25�½C.
0.20
ΩΩ
times
applied
0.050
0.033
to
to exceed
Ω
1.5
AMBIENT TEMPERATURE,
750
(such as
for the temperature limitations of the adjacent
of
�½.002
C
-15�½C
Type 2
4,000
75
N/A
MG716 1.5
high heat sinking benefits
600
�½
St'd with "-15" rating
±1%
Ω
.240
0.015
0.033
Standard.
N/A
provides
0.10
MG
0
810
Thermal
1.500
±.080
resistance
.040
±.002
1.000
�½1.52)
.240
�½.76)
continuous operating voltage for seconds.
Note 2:
MG 730
4,000
Resistance
750
150
200
�½
Power
Meg
Alumina, or
where the circuit board
±.030
.040
�½.002
Custom resistance values
operatingvoltage
tolerances
-
1,000 500
Ω
51
IMS,
100 Meg 300
other)
(25.40
�½.050
(6.10
�½.76)
(1.02
�½.05)
Tolerance CD2520FC
0.040
non-standard
for 55seconds.
In Highmaterials.
250 Meg 750 M
the thermal
(3.56
�½.030
(.64
�½.002
imum
0.020
Ω
Applications
M
material
±.05)
3.0
6,000
77
.240
1.000
2.0
25
4,000
70
Type 2
MG721
(6.10
�½.030
.040
100
and
imum continuous
0.050
Ω
(38.10
�½.050
0.025
Ω
Range
0.040
0.020
0.20
Ω
2.0
750
High
�½
51Meg
200
Power Applications
300 M
Meg
(25.40
�½.050
board
±.76)
(1.02
�½.002
�½1.27)
resistor
MG721
chip resistor is useful
2
to establish the maximum
100 Meg
capability
the
the
±2.03)
.240
�½.030
in
.040
�½.05)
Type
the
power
or
Extended
0.8%
Ω
Note 2: Thermal Resistance -
o
In (such as
Meg
Alumina,
225 M
where
of
the
�½1.27)
(6.10
�½.76)
(1.02
�½.05)
Insulation Resistance:
10,000 Megohms, min.
circuit
material
.710
(25.40
chip
.315
±.030
the
of
0.010
0.030
provides
AMBIENT TEMPERATURE,
750 600
�½
films are
Meg
source
(18.03
�½1.27)
Preconditioning for Power
Ω
Voltage
high
Ω
quantity
0.075
max.
1.5
high
2,000
75
17
Type 2
MG717
applications.
1.000
±.060
.040
Type
0.025
Voltage
1: DC
C
Caddock's
heat sinking benefits
measured
IMS, Alumina,
N/A
other)
2.000
�½.080
(6.10
resistance
�½.05)
can
Type 1: DC
Ω
and
for
0.050
Ω
non-standard tolerances
Micronox
of
thermal
�½.030
.025
±.002
be manufactured
Voltage
2.000
thermal
�½.76)
4,000
1,000
750
40
0.015
0.033
application.
10,000
film
Type
®
resistance
N/A
Meg
200 Meg
temperature is
1.5 K
.140
±.76)
provides resistor
2.6
sinking benefits (such as
N/A
at the center
capability
(25.40
�½.080
(3.56
and solder
�½.002
Custom resistance
Applications
5
0.10
Ω
rated power
IMS,
200
the
or
the
(50.80
the
.140
resistance
�½.05)
other) the
element
�½.76)
(1.02
�½.002
Type 2: DC
Ω
Shock:
or V
and
Ratings
of
2.5
high heat
750
MG725
chip
MG 731
The
is useful
2
to establish
200
Ω
maximum
150 Meg
of
N/A
M
resistor
�½2.03)
chip resistor
(1.02
the
Please contact Caddock
values
Ω
AC times
Method 107,
±1.52)
(8.00
�½.030
.025
±.05)
Engineering.
Thermal
Ω
Voltage
the
Type MG Precision
2
High Voltage Resistors' outstanding
of
�½.080
.140
�½.030
.025
�½.002
Custom
2:
maximum
or
Mil-Std-202,
Ω
the
power
in
ratings and
resistance values
V
non-standard tolerances
Overload/Overvoltage:
AC
0.20
750
1.5 K
Meg
10,000
(.64
�½.05)
MG725 2.5
Type
Type DC Voltage
and
0.040
rms
(.64
(50.80
±.080
(3.56
material
the
pad
2: Thermal
is
Resistance -
of the solderable
Applications capability
2.000
�½2.03)
board
±.030
.040
the
can be
0.020
∆
R 0.25%
for
Ω
high quantity applications.
All
rms
in
1.500
�½2.03)
(3.56
�½.030
(.64
±.002
Cond.
manufactured
operating voltage ratings
.240
Type
K
N/A
pedestal
MG720
temperature at the center
750
High Power
Meg
150 Meg
(point X
M
the
recommended
power
�½.05)
Note
2.0
resistor
3.6
useful
2
to establish
1
750
Ω
maximum
300 Meg
N/A
the resistor element
�½.76)
.040
�½.002
In
circuit
.240
�½.76)
circuit
MG
chip
the
815
MG 735
6,000
of
C,
Ω
max.
10,000
1,000
measured at
1,000
178
1.500
the
application. The film temperature is
500
the
77 Meg
thepower
750 M
center where
(38.10
�½.080
chip resistor
(1.02
�½.002
can be
0.025
Range
0.050
Overload/Overvoltage,
on
max-
of
and in
(6.10
�½.030
solder
.240
±.76)
.040
±.05)
Please contact Caddock Applications
based
�½R
±2.03)
of
for
(50.80
�½.080
are
chip)
continuous
with applied voltage not
high
are
Engineering.
pre-
manufactured for
Ω
to
quantity applications.
Resistance
These ratings
exceed 1.5 times
1,000
MG730 3.0
shown
performance features:
77 Meg
the chip
Type 2
benefits
500
�½
duty.
combination
The
below). Maximum temperature
IMS,the
Meg
resistor
the resistor element
�½.76)
(1.02
�½.05)
of
layouts
high
6,000
film temperature is (such as
of
250
center
750
other)
1.500
�½2.03)
(6.10
resistance
�½.002
(at
(38.10
center
.240
�½.76)
.040
of
the
�½.050
(6.10
�½.030
solder
Resistance Range
Overload/Overvoltage,
�½R
250 Meg
�½
MG730 3.0
provides
heat
Type 2
1,000
measured at Alumina, or
M
the thermal and
application.
6,000
sinking
of
1.000
�½2.03)
.315
±.030
circuit
Moisture Resistance:
Mil-Std-202,
5 seconds.
imum continuous operating voltage for
Method 106,
pad
2.0
740
4,000
of
the recommended
(1.02
�½.05)
Please contact
Engineering.
.040
±.002
1.500
±.060
300
51 Meg
100 Meg
MG721
temperature at the center
750
the solderable pedestal (point X in
(38.10
�½1.27)
stress voltage levels
Standard
Caddock Applications
manufacturing
Type
resistance
1,000
200
�½
1,500
applied
0.5% max.
should
MG
exceed
the center of
the temperature
150
power
the
M
M
in the the
(6.10
�½.76)
circuit
not
4,000
values
2
1.000
±1.52)
.315
±.76)
in
±.05)
the chipshown below).
6,000
through
the solderable
Megohms.
capability
1.000
�½.060
chipof
�½.76)
(1.02
�½.002
Custom
Standard
values and
the
max.
tolerances
2
resistor
3.6
Type
of
Single-resistor
at
150°C
2
to
1,000
temperature
Meg
pedestal
of
750 M
application
recommended
(1.02
�½.05)
high as
the
40
64
of the chip resistor
(25.40
�½1.52)
.315
resistor
(1.02
the
10,000
Meg
range
750 M
(25.40
.
center
(8.00
�½.030
.040
�½.002
Type
0.4% max.
during
non-standard
Page 1 of
0.5%
pad temperature is useful
2
as
establish
300
Ω
maximum
300 Meg
(point X (at
(38.10
�½.060
(8.00
�½.030
.040
�½.05)
can be
1: DC Voltage
for high quantity applications.
∆
2.6
MG731
layouts
2.6
Maximum
200
�½
40Meg
150Meg
the
�½.080
process to provide
R
manufactured
chip)
.025
�½.002
4,000
1,000
200
�½
Meg
Type
MG731
2.000
±.100
.140
�½.030
(25.40
center
.240
chip)
.040
�½.05)
with "-15" rating
application. The
5.0
temperature is measured
Meg
the chip
as
N/A
the resistor element
�½.76)
solder
center of
and
750
N/A
at
high
MG725 2.5
745
below). Maximum temperature of the
500 Meg
resistor (at
3.000
�½1.52)
(3.56
�½.030
(1.02
�½.05)
layouts
products shown
Type 2
through the
covered by one or more patents,
(50.80
�½.080
also
of
�½.76)
.040
�½.002
Please
2:
Life:
rating
resistor
AC
at
N/A
shown film
15,000
the
±2.54)
(8.00
±.030
(1.02
±.002
St'd
for stable
1,000 hours
performance even
1,000
1.5 K
288
MG
10,000
Maximum continuous
catalog are
Layout
as
200 Meg
St'd
"-15"
N/A
Engineering.
(76.20
are
range
the
should
3.6
exceed 150°C
operating
750
temperature
300 Meg
of
1,500
application
.
under
�½.030
pending.
overload conditions.
rms
Certain
not
10,000
in
2
there
�½.080
(6.10
momentary
Load
contact Caddock
V
patents
(.64
±.05)
Recommended
Type
this
1,000
the
750
1
�½
178 Meg
pedestal (point
M
M
in
2.000
�½2.03)
(6.10
�½.76)
(1.02
�½.05)
Type
with
DC Voltage or
Applications
+125°C at rated
Circuit
1,000
voltages
Board
�½
K
178 Meg
300 Meg 1,000 M
X
(50.80
�½2.03)
.240
±.76)
circuit
.240
2.000
recommended
.040
�½.002
MG735
temperature at the center of
pad
the
�½2.03)
(6.10
�½.76)
(1.02
�½.05)
MG735
3.6
volts ("-15"
Type 2
through the temperature range of the application
.
Extended Range
48,000
MG 750
10,000
Type 2
1,000 500
�½
Ω
77 Meg
250 Meg 1,000
M
1.500
�½.080
.240
�½.030
.040
�½.002
ratings).
1,000
solderable
should not exceed 150°C
voltage, not to exceed
Overload/Overvoltage,
�½R
rated
0.8% max.
power.
.315
±.030
.040
±.002
2.125
(50.80
±.060
Extended Range
0.8% max.
Resistance Range
5.0
10,000
2,500
Meg
6,000
MG730 3.0
Maximum operating voltages 60% higher than the values
(current and sense connections):
128
of
500 Meg
750 M
(38.10
�½2.03)
.315
�½.76)
.040
�½.05)
1.500
center
.315
�½.030
(1.02
�½.002
layouts shown
capabilities of 150%
400
standard
C
chip resistor (at
(53.98
�½.060
(6.10
�½.030
(1.02
�½.002
below). Maximum
300
�½
64 Meg
300 Meg 1,500
the
±1.52)
(8.00
chip)
.040
±.05)
of
±.76)
Overvoltage
6,000
Type 22
1,000
temperature
Meg
the
working
M
(38.10
�½.060
(8.00
�½.76)
(1.02
�½.05)
Thermal Shock:
Mil-Std-202,
max.
∆R
of
64
1.500
3.6
6,000
MG740
C
�½1.52)
3.6
1,000
300
�½
300 Meg 1,500 M
Type
MG740
Resistance
Shock:
Range
0.5%
.040
±.002
3.125
±.060
.315
in
by
Load Life,
1.000
�½.060
.315
�½.030
.040
table may
Standard
Thermal
specified
Mil-Std-202, Method 107,
Method
the
(38.10
�½1.52)
(8.00
±.030
(1.02
�½.05)
A
7.5
15,000
192
MG
should
2.6
for all
150°C
2
and
1,000
200
temperature
"-15"
of
3,750
application
.
listed
�½.76)
the
�½.002
Cond.
be
ΔR
0.25% max.
adding "-15" to
107,
not exceed
Type
C
1,000
�½
MG731
1.500
±
780
4,000
models
through the
600
Ω
40 Meg
150 Meg
ratings).
(25.40
�½1.52)
Note:
±.76)
(1.02
�½.05)
current trace is based on
(8.00
Actual width of
voltages
±
.125
1A:
Recommended
B
Kelvin layout.
Meg
range
750 M
M
3.000
�½.100
(8.00
�½.030
.040
�½.002
values, (except
750 Meg
the
(1.02
±.05)
(79.38
±1.52)
.240
�½.76)
C,
MG750-15). Note that overload
(38.10 3.18)
Fig.
.240
�½.030
.040
�½.002
Cond. C,
rating
3.000
�½.100
model number (Example:
ΔR
0.25% max.
0.5% max.
Standard
15,000
1,000
11K
288 Meg
500
C
Meg 1,500 M
Meg
MG745 5.0
Type 2
St'd
N/A
.315
±.030
current.
C
15,000
1,000
K
288 Meg
500
1,500 M
(76.20
�½2.54)
magnitude of
.040
�½.05)
Point of
with "-15"
MG745 5.0
Type 2
±.002
4.000
±.120
(6.10
�½.76)
connection should
(6.10
�½.76)
.040
�½.002
2.000
�½.080
(76.20
�½2.54)
.240
�½.030
(1.02
�½.05)
8.0
20,000
1,000
750
�½
178 Meg
800
1,000
5,000
MG
Resistance
10,000
Moisture
and
apply
(8.00
±.76)
(1.02
±.05)
1,000
MG735
3.6
785
Tolerances from ±1.0%
Ω
320 Meg
300
C
Meg
source of
C
�½2.03)
and
�½.030
(1.02
�½.05)
for Power
Resistance:
Mil-Std-202, Method 106,
Type 2
do
Range
Voltage
the "-15"
not
(1.02
assistance in
Resistance:
to
Ratings
TC matched
(101.60
±3.05)
(6.10
�½.76)
Caddock's Micronox
®
resistance to ±0.1%. the
1,000 M
immediate
Preconditioning
ratings
with
trace is based on
Mil-Std-202, Method 106,
films are
Meg
For
M
(50.80
�½.060
engineering
�½.002
of
Moisture
developing Low
0.8% max.
resistors.
.315
overvoltage
Ratio
2.125
0.8% max.
Extended
Note: Actual width
St'd
current
"-15" rating
in
.040
2.125
±.120
.315
�½.030
.040
�½.002
1,000
�½
10,000
MG750 5.0
Fig. 1A:
Recommended Kelvin layout.
500 Meg
range,
Type 2
5.000
Temperature Precision
2
High
400
1
�½
128 Meg
1,250 Meg
2,500 M
M
1.500
�½.060
be
.315
the area shown.
ΔR
our Applications
on
10,000
DIMENSIONS
MG
INCHES
Coefficient, for Voltage
128 Meg
AND
MG750 5.0
810 10.0
Type
X
voltage
�½.060
(8.00
�½.76)
call
of
or write
current
maximum
should
"-15" resistors shown voltage
we will
Note:
(1.02
ratings
Point of connection
operating in the table are
width
the Type
IN
MG
1A:
C
(MILLIMETERS)
1,000
standard
64
resistance
high
6,250
X
of
(53.98
�½1.52)
Resistance
.040
�½.002
of
ΔR
0.4%
trace is based
Engineering and
ratings
All
±.030
power
±.05)
and
max.
(8.00
±.76)
.040
�½.05)
400 Meg
500 Meg 2,500 M
25,000
1,000
400
K
Resistors' outstanding
resistor
(8.00
�½.76)
Actual current.
for
0.4% max.
(53.98
±3.05)
.315
�½.030
(1.02
�½.05)
sets,
(1.02
±.002
magnitude
ranges
Thermal Shock:
Mil-Std-202,
max.
(127.00
�½1.52)
(8.00
�½.76)
Meg
3.6
Fig.
6,000
Recommended Kelvin layout.
300 Meg 1,500 M
1,000
300
�½
Type 2
MG740
Extended Range
0.8%
Method 107,
= Current connection
3.125
�½1.52)
.315
�½.030
continuous duty.
Life:
Max."
80
7.5
in combination features:
resistance
C
magnitude
�½.05)
.040
�½.002
combination
15,000
S =
Type 22
connection
1
�½
K
192 Meg
tolerances as
M
(79.38
�½.060
are
be
�½.76)
the
(1.02
�½.05)
to "Standard
our
1,000 hours
are
+125°C
on
rated
of performance with
600
�½
192 Meg
750
C
Meg 3,750 M
(38.10
�½1.52)
fromfor
best
of
�½.002
Load
of
Life:
1,000
voltage resistor
at
product
MG780
ppm/°C
15,000
Load
rated
6.000
�½.060
.040
shown.Point
.350
in
±.040
area
±.002
be pleased
3.125
�½.100
.240
"-15
.040
solution from
connection should
at
based
at
pre-
to
±.120
(8.00
�½.76)
.040
current.
Cond. C,
These ratings
offer
.315
�½.030
Min."
the
high
Type
7.5
815 15.0
1,000
750Meg
MG780
Sense
1,000
30,000
1,000
600
10,000
384 Meg
2,000 Meg
3,750 M
X
(152.40
�½1.52)
(8.00
�½.030
(1.02
�½.002
MG
ΔR
Leads
max. power.
0.25% hours at +125°C
3.000
(79.38
±3.05)
(8.89
±1.02)
(1.02
�½.05)
of
Solderable
to exceed
on
(1.02
width
tight
Curve:
Derating
5.0
±0.1%.
Recommended Kelvin layout.
500 Meg
X
Note:
voltage
15,000
1,000
1 K
288 Meg
1,500 M
MG745
as
Fig. 1A:
100
Type 2
be
�½.76)
.040
±.05)
voltage, not
is
during the
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shaded areas.
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web: www.rhopointcomponents.com
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RHOPOINT COMPONENTS
including
400 Meg
amplifiers,
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Phone:
+44 (0)
stability,
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Page 1 of 2
Caddock's Micronox®
the source of
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Type CD Low Resistance Precision
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Megohms
Power
Additional
Ratings
Micronox resistance
for
Caddock Micronox
®
performance
films to achieve the unique
of
to
resistance
power ratings and
These ratings are based on pre-stress
MG 655
combination of
Extended Resistance Range
low
10,000
continuous duty.
Now with
®
resistance films to achieve
outstanding
and
and Voltage
Models
ratings
the Type
in
MG Precision High Voltage Resistors'
features
range
MG
family.
High Voltage Resistors' outstanding
Type
All power ratings and maximum operating voltage ratings
CD
the Type
All
maximum operating voltage
Type MG Precision
Precision Chip Resistors
Type CD Low Resistance
High Voltage Resistors
Type CD Low
Precision High Voltage
Chip Resistors
Resistance
Type CD
MG Precision High Voltage Resistors
Low Resistance
Precision
Resistors
Type
MG Precision
Precision Chip Resistors
Type
Resistors
Type CD Low Resistance Precision Chip Resistors
Now with Extended Resistance
Ω
Low
Type MG Precision
at
±
1%
10,000 Megohms and Additional
Design
Resistance Chip down to 0.010
Range to
with unique Pedestal Terminal
Models
Voltage Resistors
Low Resistance
Chip
tight as 80 ppm/°C,
Ω
at
High
Excellent Long-Term Stability, and Precision Tolerances.
Low
with Extended Resistance Range
at
1%
with
unique Pedestal
Additional Models
Resistance
Chip
down to 0.010
Combined
with
Megohms and
Terminal Design
±
±
1% with
Now
Temperature Coefficient as
down to 0.010
Ω
to 10,000
unique Pedestal Terminal Design
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RATED LOAD,LOAD, % %
RATED %LOAD,
RATED
RATED LOAD, %
Style FC Derating Curve For General Application
Style FC Derating Curve For General Application
Style FC Derating Curve For General Application
Temperature Coefficient as tight as 80 ppm/°C, Combined with Excellent Long-Term Stability and Precision Tolerances.
Now with Extended Resistance Range to 10,000 Megohms and Additional Models
•
•
Now with Extended
Layout
•
Recommended Circuit Board
Resistance Range to 10,000 Megohms and Additional Models
with
Design Assistance in Developing High Voltage Resistor Sets
Recommended Circuit Board Layout
Temperature Coefficient as tight as 80 ppm/°C, Combined with Excellent Long-Term Stability and Precision Tolerances.
(current and sense connections):
Low TC Tracking.
•
(current and sense connections):
Recommended Circuit Board Layout
•
(current and sense connections):
Ordering Information
•
•
•
•
RHOPOINT COMPONENTS LTD.
1,000
St'd with
0.8%
(0)1883 717988
Encapsulation:
High
1 K
384 Meg
2,000 Meg 10,000
COMPONENTS
MG815
Surrey,
in combination with resistance tolerances as
(152.40
�½3.05)
(8.89
�½1.02)
(1.02
�½.05)
LTD
Type
Tel: +44
max.
Conformal.
Holland Road,
30,000
9AX
2
RHOPOINT
M
Oxted,
15.0
RH8
80 ppm/°C
Hurst Green,
from "-15 Min."
LTD
"-15" rating
Temperature Silicone
IL-110.0201
Max."
Holland Road
(0)
RH8 9AX
Inc.
Fax: +44
max.
RHOPOINT COMPONENTS
to "Standard
Range
www.rhopointcomponents.com
27.1
(0)1883
© 2002 Caddock
Oxted, Surrey,
Electronics,
Phone:
as
COMPONENTS
web:
Sales
0.8%
IL107.0802
712938
RHOPOINT
Engineering
Extended
Applications Engineering
Office
tight
+44 1883 717988
Hurst Green
±0.1%.
717988
LTD
Resistance
Applications
(0)
Max.
Sales and Corporate Office
Dimensions
Non-Inductive Performance
in inches and (millimeters)
e-mail: sales@rhopointcomponents.com
Specifications:
and Corporate
Avenue
Phone:
Models with
712938
+44
Umpqua Hwy.
1883
Green,
web: www.rhopointcomponents.com
Fax:
Surrey,
Hurst
Overload
Dielect.
(0)
e-mail: sales@rhopointcomponents.com
Model
in
Holland
Watt-
1883
9AX
17271
+44
Road,
RH8
low inductance construction are
-15
shaded areas.
RHOPOINT
0.01%
LTD.
are manufactured
1717 Chicago Avenue
Oxted,
+44 (0)
Umpqua Hwy.
17271 North
Continuous
Rating
demonstrated stability of
COMPONENTS
models
Solderable Leads
North
1883 712938
web: www.rhopointcomponents.com
1717 Chicago
•
Fax: Surrey, RH8 9AX
have
Type MG resistors
Standard Extended
No.
age Oper.
A
B
C
e-mail: sales@rhopointcomponents.com
Most
RHOPOINT COMPONENTS LTD
Oxted,
Models with
97470-9422
Resistance Tolerance:
California 92507-2364
Roseburg, Oregon 97470-9422
Strength Min.
Riverside,
with Caddock's
Max.
Min.
Caddock's
Roseburg, Oregon
Volt.
in
Inc.
Non-Inductive
life testing
Max.
standard
Riverside, California 92507-2364
27.1 IL107.0802
© 2002 Caddock Electronics,
extended load
Resistance Pattern are in non-shaded areas.
per 1,000
496-0700
717988
hours
of
High
a serpentine
Conformal.
Phone:
+44
1883
e-mail: caddock@caddock.com
Non-Inductive
�½.002
Encapsulation:
uses
Temperature Silicone
resistive
Phone: (541)
(0)
Electronics, Inc.
Phone: (951) 788-1700
.094
www.caddock.com
.313
�½.020
web:
�½.015
.025
Design which
web:
Tolerance
IL107.0802
Phone: (541) 496-0700
values.
750 200
�½
N/A
e-mail:caddock@caddock.com ••web: www.caddock.com
Resistance Range
www.rhopointcomponents.com
Phone: (951) 788-1700
27.1
IL-110.019
© 2002
0.5
600
5 Meg
N/A
MG650
Caddock
range
Type 1
resistance
1883 712938
(2.39
�½.38)
Fax:
+44 (0)
e-mail: sales@rhopointcomponents.com
in
For Caddock Distributors listed by country
pattern that
(.64
�½.05)
Fax: (541) 496-0408
provides for neighboring lines to
Fax: (951) 369-1151
carry current
For Caddock Distributors listed by
(7.95
�½.51)
see caddock.com/contact/dist.html
country see caddock.com/contact/dist.html
Fax: (541) 496-0408
Fax: (951) 369-1151
Applications Engineering
Standard
�½1%, �½0.5%,
cancellation
This exceptional performance has been proven through
.313
�½.030
.109
�½.025
directions, thereby achieving
Sales and Corporate Office
opposite
.025
�½.002
maximum
�½0.25%, �½0.1%
0.5
600
750
200
�½
8 Meg
N/A
N/A
27.1 IL107.0802
© 2002 Caddock Electronics,
Type
Inc.
17271
Caddock Electronics, Inc.
1
1717
•
RH8 9AX
•
UK
Chicago Avenue
(7.95
�½.76)
(2.77
�½.64)
(.64
�½.05)
©
MG655
North Umpqua Hwy.
28_IL110.1004
© 2004 Caddock Electronics, Inc.
equipment that demands the highest
2004
28_IL110.1004
many years of
97470-9422
use in
St'd
entire length of
Surrey
�½1%
92507-2364
rating
of flux fields over the
with "-15"
Hurst Green
•
the resistor. This
Roseburg, Oregon
Riverside, California
.500
�½.030
.094
�½.015
.025
�½.002
Type 1
1,000
750
400
10 Meg
N/A
MG660 0.6
and stability, including
�½
TWT amplifiers,
N/A
Email
•
sales@rhopointcomponents.com
reliability
X-ray
(12.70
�½.76)
web: www.caddock.com
construction
e-mail: caddock@caddock.com
efficient non-inductive
Extended Range
is accomplished
788-1700
•
(2.39
�½.38)
(.64
�½.05)
Phone: (541) 496-0700
Phone: (951)
without
�½1%
For
�½
N/A
Distributors
N/A
Caddock
listed
see
(0)
of any performance
Web
•
www.rhopointcomponents.com
.750
Tel: +44
caddock.com/contact/dist.html
advantages.
�½.030
.094
�½.015
.025
1188
Fax: (541) 496-0408
Fax: (951) 369-1151
systems, geophysical instruments, and medical
20
electronics.
by country
derating
870 608
�½.002
600
2,000
750
Meg
MG680 0.8
Type 1
(19.05
�½.76)
(2.39
�½.38)
(.64
�½.05)
Temperature Coefficient:
.094
�½.015
.025
�½.002
© 2004 Caddock Electronics, Inc.
28_IL110.1004
1.000
�½.040
1.0
4,000
750
800
�½
50 Meg
N/A
N/A
Type 1
MG710
Resistance
Resistance
Dimensions in inches
�½.38)
(millimeters)
(25.40
�½1.02)
(2.39
and
(.64
�½.05)
Max.
TC Specifications
Overload
Dielect.
Model Watt-
Range
RHOPOINT COMPONENTS LTD
•
RHOPOINT COMPONENTS LTD.
Models with
712938
RHOPOINT COMPONENTS LTD
standard resistance
are in non-shaded areas.
•
Holland
Models
1883
Caddock's Non-Inductive
and medical electronics.
6.000
�½.120
Resistance any performance resistors shown in the table are
Temperature Coefficient, for
Road, Hurst Green,
systems, geophysical instruments,
Resistance Pattern
range, of
Fax:
+44 (0)
with Caddock's Non-Inductive Resistance Pattern are in non-shaded areas.
�½.040
of ranges
Encapsulation:
High Temperature Silicone Conformal.
derating
.040
�½.002
for "-15" advantages.
e-mail: sales@rhopointcomponents.com
.350
UK & Ireland
Distributors
Type MG Precision High Voltage Resistors
Page 2 of 2
N
Specifications:
Type MG Precision High Voltage Resistors
Type MG Precision High Voltage Resistors
CADDOCK
CADDOCK
Specifications:
RHOPOINT [ RHOPOINT COMPONENTS ]
