Type
Micronox
Low Resistance
High Voltage Resistors
Type MG
Resistors' outstanding
Precision
Power and
Resistors
Precision
Preconditioning for
Chip
Caddock's
CC
resistance films are the source of
Type
Precision High Voltage
Resistance Precision
duty.
Resistors
on pre-
CC Low
Precision High
All
Voltage
Chip
Voltage Ratings
ratings
Resistance Precision
and maximum
Resistors
the Type MG
power ratings
Chip Resistors
operating voltage
Type
CC Low
CC
Type MG
Type
performance features:
Resistance Precision Chip
ratings are based
are
Voltage Resistors
These
Resistors
combination
Type MG Precision High
for continuous
of
stress voltage levels applied during the manufacturing
•
Single-resistor values as high as 10,000 Megohms.
Style
for
Wire
down heat sinking of the chip, includes bondable termination
Style WB
-
Wire
Bond version
hybrid applications with metallized back
surface
WB
- solderBond version
for hybrid applications with metallized back
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
•
Maximum continuous operating voltages as high as
under momentary overload conditions.
•
Style FC
-
Now with Extended Resistance Range to 10,000 Megohms and Additional Models
48,000 volts
Flip Chip version for surface mount applications.
("-15" ratings).
Maximum
higher than the
•
Style FC
-
with
Chip
version for
Resistance
applications.
10,000 Megohms and Additional Models
values
Flip
Style WB
Flip Chip
version
as
of standard
ppm/°C, Combined with
back
FC
Wire
Extended
tight as 80
working
with
•
•
Overvoltage
-
-
capabilities of 150%
for hybridmount
applications.
metallized
Excellent
operating voltages 60% by
Precision Tolerances.
Now
- Flip Chip version for
surface mount
applications.
Temperature
Bond version surface mount
Range to
Coefficient
surface applications
Long-Term Stability, and
adding "-15" to the
listed in the table may be specified
•
Style FC
1.0
1,000
Ω
Type 1
Ω
750
750
1.5 Watts
6.5 Meg
200
�½
20
13.0°C/Watt
Meg
N/A
MG714
Type 2
referenced to +25�½C.
Coated Pads
(2.77
±.64)
(.81
�½.05)
Solder
Tolerance
150°C
0.010
0.020
±.05)
(7.95
±.76)
(3.81
�½.76)
with
±1%
600
200
�½
5 Meg
N/A
N/A
MG650
0.5
(14.27
�½1.52)
(2.39
�½.38)
.250
±.007
(.64
�½.05)
±.007
Resistance Range
(1.66 min.
.200
.041
±.004
.040
(6.35
±.18)
(.64
(5.08
±.18)
St'd
rating
"-15" rating
min.)
(.81
±.13)
(7.95
�½.51)
CC2520FC
1.5 Watts
11.5°C/Watt
150°C
10.0
Ω
Solderable Pads
0.025
Ω
MG 745
.094
±.015
.025
(5.08
±.002
.500
±.030
.140
�½.030
.025
�½.002
±.18)
(6.35
±.007
(1.04
±.004
Range
Resistance Values:
±.18)
±.10)
(1.02 min.
min.)
�½0.5%, �½0.25%, �½0.1%
.250
±.38)
.200
.041
.040
�½1%,
.750
�½.060
.109
�½.025
.025
�½.002
Extended
±1%
.6
1,000
750
1.5
400
Ω
26 Meg
10 Meg
N/A
N/A
Dimensions in inches and (millimeters)
±.007
N/A
MG 660
2,000
Ω
Type 2
Ω
CC1512FC Standard
ppm/�½C from
Solderable Pads
Standard
(2.39
.313
�½.030
150°C
1.0
750
400
�½
�½
50
11.5°C/Watt
Meg
MG715
0.5
0.025
(.64
(5.08
±.05)
(12.70
±.76)
(3.56
�½.76)
�½80
Max.
Type
Curve For General Application
1
600
750
8 Meg
N/A
MG655
Watt-
(6.35
±.18)
(.64
�½.05)
CC1512FC Standard Resistance
to +105�½C,
(1.04
±.10)
(1.02 min.)
Extended
Overload
Model
Style FC Derating
10.0
Dielect.
200
Watts
N/A
Resistance Extended
(19.05
�½1.52)
(2.77
�½.64)
(.64
�½.05)
±.18)
Temperature
±1%
Standard (except
+25�½C
Values:
(7.95
�½.76)
Tolerance CC1512FC
Coefficient:
to +50 ppm/�½C from
as noted).
Continuous
Rating
.094
Standard
.750
±.030
.140
±.015
.025
±.002
Tolerance CC1512FC
-200 ppm/�½C
No.
age
680
A
C
±1%
Resistance
as
St'd
Range
with "-15"
�½1%
Values:
.8
2,000
Strength Min.
Ω
-15
750
600
20 Meg
N/A
N/A
MG
Oper. Volt.
1.000
�½.060
.094
B
�½.030
.025
�½.002
CC1512FC Standard
Standard (except
3.30
noted).
Resistance
rating
-15�½C to
(2.39
±.38)
.025
�½.002
(.64
±.05)
(19.05
±.76)
(3.56
�½.015
Ω
Max.
Max.
.500
�½.030
Min.
Type 2
600
�½
70 Meg
4,000
750
75 Meg
N/A
MG716 1.5
0.010
Ω
5% 0.033
Ω
Tolerance:
+25�½C.
Ω
5%
0.20
Ω
0.75
MG 731
�½.76)
Type 1
1,000
750
400
�½
10 Meg
N/A
N/A
MG660 0.6
(.64
�½.05)
0.010
Ω
5% 0.033
Ω
(25.40
�½1.52)
(2.39
�½.38)
Resistance
5%
Standard Resistance Values:
(12.70
�½.76)
(.64
�½.05)
CC1512FC
Range
5%
Standard (except
4.00
noted).
Ω
Tolerance
0.040
Range
±1%
Ω
TC
Ω
Tolerance
Ω
3.30
CC1512FC
0.25
0.20
1.00
Ω
0.75
Ω
as
0.015
5%
Specifications
1.000
±.040
.094
±.015
.025
±.002
�½1%
Note
N/A
General
Meg
N/A
1:
Applications
.710
�½.050
.094
rating
.025
�½.002
0.015
Extended
0.040
Ω
5%
-
.313
�½.020
.240
�½.015
.040
�½.002
Ω
Resistance
Ω
The power
�½.030
100
0.5
710
600
1.0
4,000
750
200
�½
Ω
800
N/A
N/A
MG
5
50
Meg
750
Type 1
MG650
Ω
5%
0.25
Ω
1.00
Ω
(2.39
rating
(.64
±.05)
Ω
4.00
min.
(25.40
�½.51)
(2.39
�½.015
Insulation
0.020
Ω
5%
Range
Resistance:
10,000 Megohms,
Ω
0.30
Ω
100
1.5
(7.95
�½.030
(6.10
�½.38)
(.64
.750
±1.02)
.094
in.
3.30
2,000
750
600
Note
N/A
General Applications -
The power
±.38)
.025
�½.05)
Tolerance
0.050
Ω
2%
±1%
Standard (except
5.00
noted).
Ω
�½
17
1:
75 Meg
225 M
Meg
Type 2
MG717
0.20
1.50
Ω
0.75
sq.
±.030
(.64
�½.05)
0.020
Ω
5%
CC1512FC
2%
Ω
Ω
Ω
1.50
Ω
as
Ω
5.00
Ω
2,000
750
20 Meg
N/A
600
for general applications is based upon 0.5
.140
�½.76)
(1.02
�½.002
0.010
Standard
0.033
Ω
5%
�½
MG680
80
0.8
Type 1
�½.05)
(18.03
�½1.27)
(2.39
�½.38)
Ω
Standard
Ω
0.050
7.50
4.00
Ω
0.025
Temperature
2%
Ω
5%
5%
0.075
and
Coefficient:
Ω
Ω
0.33
0.30
�½0.5%, �½0.25%, �½0.1%
2.00
1.00
Ω
(19.05
�½.76)
.025
±.002
0.015
Ω
.400
±.060
.109
rating
0.040
0.25
5
3.30
�½.030
power
for
Ω
general
of termination
is based The
area (2
�½.025
in.
.025
�½.002
0.010
St'd
5%
"-15"
Ω
5%
ppm/°C from -15°C to +105°C,
applications
N/A
or
.313
upon 0.5 sq.
0.033
Ω
2%
�½1%,
Ω
times
Ω
0.20
Ω
0.75
Ω
Note
N/A
General
Meg
N/A
pad
1.500
�½.080
(2.77
�½.64)
.025
�½.002
0.025
Ω
5% 0.075
±80
Ω
1:
-
100
.6
1,000
750
200
(300 mm
2
)
800
N/A
MG
Overload/Overvoltage:
2.50
Ω
2.00
8.00
Ω
7.50
Ω
rated power
80
Type 1
.140
±.76)
(.64
±.05)
750
�½
8
20
Applications
trace
Meg
MG655
(3.56
oz.
MG 740
0.5
712
600
0.030
Ω
5%
with
0.050
0.10
Ω
0.40
0.33
.094
�½.030
(7.95
�½.040
0.30
to
1.50
4.00
Ω
1.000
The
Type 1
2
6,000
750
1K
150
Meg
Meg
N/A
N/A
2
) of termination pad
(10.16
±.152)
(3.56
�½.015
.025
�½.05)
0.020
Ω
5% 0.040
Ω
5%
MG720
60
1.0
referenced
Ω
Ω
1.00
Ω
�½.76)
Note
N/A
General Applications
.562
�½.76)
power(2 oz.
(.64
�½.002
0.015
Ω
with "-15"
voltage not
0.25
exceed 1.5 times max-
1:
-
trace areasq. in.
(.64
�½.05)
0.030
applied
rating
2%
Ω
to
Ω
+25°C.
Ω
Ω
5.00
Ω
rating
(.64
�½.05)
100
2.0
4,000
750
800
(300 mm
�½
N/A
is
or
�½2.03)
.150
Type
MG710
(38.10
upon
(2.39
2.50
0.50
0.40
3.00
�½1%
10.0
8.00
for general
50
with
rating
Ω
St'd
0.15
0.050
Resistance
(25.40
�½1.02)
0.5
�½.38)
7.50
copper)
Meg
applications
N/A
based
the resistor.
±.030
.032
±.002
0.025 5% 0.10
ΩΩ
2%
of
±.060
80
0.075
0.33
2.00
5.00
Ω
0.30
Ω
1.50
Ω
60
.500
TC
1.0
1,000
750
400
�½
Ω
N/A
connected to each end
(14.27
�½.030
.094
�½.015
.025
�½.002
0.020
Ω
5%
200
6.5
MG
3.00
Ω
Type 1
750
10
20 Meg
Meg
±1.52)
.240
(2
MG660
40
0.6
714
1,000
for general of termination based trace area
�½.030
in.
.025
�½.05)
0.025
Ω
5% 0.10
Ω
±80
0.50
Specifications
to
10.0
Ω
Range
0.075
copper) connected to
N/A
M
pad
150°C. Use
.140
sq. oz.
.040
�½.002
0.030
Extended
0.15
ΩΩ
2%
ppm/°C from +25°C
5 seconds.
each
1.000
upon
(2.39
�½.030
(.81
±.05)
imum continuous operating
Ω
the
(3.81
±.76)
voltage for
8.00
Ω
(300
51 Meg
2
) applications is
is
(12.70
�½.060
resistor.
(.64
�½.002
mm
chip temperature
end of
�½.050
0.5
�½.38)
or
�½.76)
(6.10
�½.76)
0.40
Ω
2.50
7.50
80
2.0
0.33
2.00
+105°C,
.400
4,000
750
200
Maximum
�½
100
Meg
Meg
300
MG721
0.6
Derating
(1.02
�½.05)
Type 2
2
Range
Resistance
�½1%
Ω
Type
1,000
750
800
�½
20
N/A
MG712
(25.40
�½.152)
�½1.27)
CC2015FC Standard
Values:
8.00
2
60
±.030
.140
(2
10.0
40
0.15
0.50
Ω
3.00
(10.16
trace resistor.
(300
N/A
Meg
of termination pad
(19.05
±.060
area
�½.76)
oz.
.025
�½.002
0.030
Ω
Extended
Ω
-200 ppm/°C to +50 ppm/°C from
mm
derate
temperature is or
the
±1.52)
(3.56
�½.015
(.64
±.002
Type
5%
DC Voltage
0.10
Maximum)chip
50
appropriately
end
.750
�½.030
Use Derating
�½.05)
CC2015FC Standard
0.40
from -15�½C
Ω
Values:
150°C.
.094
�½.030
.025
±.05)
1:
and
±1%
Standard (except
2.50
to +105�½C,
Ω
Standard
1.0
2,000
750
400
Ω
26
connected to each
for
of the
(3.56
±.76)
Meg
N/A
MG
.750
maximum
copper)
MG 750
0.8
715
2,000
Curve to
Range
(.64
�½.002
Resistance
.140
�½80
ppm/�½C
Tolerance CC2015FC
as noted).
10.0
Ω
600
�½
750
20 Meg
N/A
N/A
MG680
20
Type 1
60
0.15
0.50
(19.05
�½.080
(2.39
�½.030
St'd with
DC Voltage or
to +25°C.
"-15"
Coefficient:
Ω
.562
�½.76)
(3.56
�½.38)
750
1.5
copper) connected
K
200 Meg
10,000
N/A
N/A
MG725
1.0
Type 2
each is
2.000
�½.060
resistor.
.025
�½.05)
of
�½2.03)
.150
�½.76)
(.64
±.002
Temperature
Ω
-15°C
Standard (except
the
40
2.5
Curve
Meg
chip
Meg
and
Type 2:
CC2015FC
±1%
Ω
rms
AC
3.00
Ω
Values:
Maximumderatetemperature
the
150°C.maximum
.032
�½.002
CC2015FC Standard
V
Resistance
as noted).
1,000
750
200
ambient temperature
to
N/A
for
end
temperature
Derating
�½.05)
Tolerance
0.033
Ω
5%
referenced to
0.75
Ω
�½
6.5
to
20
appropriately for
�½1.52)
Use
�½.76)
MG714
Type 2
(.64
(50.80
the
+25�½C.
3.30
Ω
.025
1.000
±.060
.140
±.030
(.81
�½.05)
20
0.020
Ω
5%
0.20
(14.27
�½.040
(3.81
�½.015
.025
�½.002
1.5
4,000
750
600
Ω
70 Meg
75 Meg
N/A
MG 716
rating
1.000
(3.56
40
Resistance:
150°C.
.094
±.76)
4,000
750
800
Maximum chip
Meg
�½
50
temperature is
(25.40
±1.52)
.140
Derating
�½.002
0.020
Ω
5%
N/A
N/A
Type 1
MG710
0
1.0
ambient temperature
750 M
for
(25.40
temperature
and
the
�½1.02)
Use
�½.38)
(.64
±.05)
Ω
Resistance
Ω
5%
±1%
Ω
10,000
Ω
0.75
4.00
noted).
Ω
5%
1.00
Megohms, min.
to
for
�½.080
.240
�½.030
(.64
0.025
Insulation
Standard
Overload/Overvoltage,
�½R
the
appropriately
1.500
�½.060
maximum
.040
�½.05)
Tolerance
0.040
Range
5%
Standard (except
Ω
Values:
Resistance
Resistance
Ω
3.30
CC2015FC
0.25
0.20
Ω
.750
the
20
500
Curve
Meg
of
250 Meg
Meg
�½
77 Meg
MG730 3.0
25
6,000
100
1,000
150
400
limitations
derate
adjacent materials.
±.050
(2.39
�½.030
(1.02
�½.002
CC2015FC
0.033
Ω
�½80
ppm/�½C from +25�½C
as
+105�½C,
Type 2
.240
±.030
.040
�½.05)
TC Specifications
Ω
(6.10
�½.76)
0
.710
±.002
750
�½
Ω
26
17 Meg
50
75 Meg
N/A
M
(19.05
�½1.52)
maximum
.025
�½.05)
0.025
Ω
5%
MG715 1.0
717
2,000
70
Type 2
(38.10
the
�½2.03)
(3.56
�½.76)
to
0.030
Ω
5%
0.30
Ω
1.50
MG 780
MG
0.25
times rated
4.00
Ω
Curve to temperature and for the temperature
for
1.5
2,000
750
600
225
Range
Overload/Overvoltage:
5
Ω
Ω
1.00
5.00
3.30
Ω
limitations of the adjacent materials.
o
150
ambient derate appropriately
(18.03
±1.27)
.140
�½.030
.025
�½.002
Tolerance
0.050
Ω
2%
-200 ppm/�½C
Ω
0.5%
ppm/�½C
power with
(6.10
±.76)
(.64
±.05)
0.020
Extended
0.040
Ω
5%
Standard (except as noted).
20
.400
�½.060
100
0.033
Ω
±1%
Ω
Ω
5%
CC2015FC
5%
AMBIENT
70
Type 2
C
0.075
Ω
0.33
0.20
Ω
+50
max.
Ω
5.00
Ω
2.00
0.75
Ω
to
Ω
1.50
7.50
from
Ω
Standard
2%
2%
�½.030
.040
.315
�½.030
(1.02
�½.002
0.030
Ω
5%
800
�½
20 Meg
N/A
N/A
MG712
0.6
25
1,000
TEMPERATURE,
750
1.000
�½.060
.140
0.30
0
2.6
applied
0.050
Ω
5%
to
+25�½C.
Ω
1.00
Ω
times
Ω
1.5
1.000
�½.152)
(8.00
�½.76)
4,000
1,000
200
ambient temperature
750 M
for
(10.16
�½.060
(3.56
�½.76)
.025
�½.002
0.025
Ω
5%
and
�½
Type 2
and
the
�½1.52)
.140
±.030
(.64
�½.05)
MG731
Standard
0.040
Ω
not
Ω
exceed
0.75
Ω
Ω
3.30
max-
o
4.00
±.002
.025
�½.05)
1.500
±.080
the adjacent materials.
(3.56
�½.76)
(1.02
�½.05)
0.020
Range
voltage
-15�½C to
0.20
from -15�½C
8.00
+105�½C,
1 of 2
0.10
0.033
Ω
0.40
0.25
Ω
�½
40 Meg
150 Meg
MG716 1.5
25
4,000
70
Type 2
(25.40
temperature
AMBIENT
2.0
TEMPERATURE,
750
C
750
600
limitations of
75 Meg
0.33
2.50
2.00
Ω
6,000
1 K
70 Meg
150 Meg
N/A
N/A
100
150
to
N/A
MG 720
Page
(25.40
�½1.52)
.150
�½.030
.032
�½.002
0.030
Ω
with "-15" rating
2%
ppm/�½C
Ω
0
(.64
(38.10
±2.03)
(3.56
±.76)
(.64
±.05)
0.025
with
St'd
5% 0.075
Ω
�½80
imum continuous
2%
Ω
to
3.00
Ω
N/A
for 5
7.50
Ω
operating
Ω
+25�½C.
10.0
Ω
5.00
Ω
seconds.
St'd
0.050
Ω
5%
0.30
voltage
Ω
1.50
.562
�½.060
0.040
0.25
1.00
4.00
0.15
0.10
Ω
referenced
Ω
Ω
0.50
0.40
the adjacent materials.
board
�½.76)
.040
�½.002
.240
�½.030
1.0
Thermal
70
Type 2
1,000
Resistance
o
C
200
�½
6.5 Meg
N/A
MG714
2:
AMBIENT TEMPERATURE,
-
750
High
limitations of
20 Meg
where the
2.000
�½1.52)
(3.81
�½.030
2.50
Ω
8.00
Ω
�½.080
100
150
Note
3.6
25
10,000
In
750
�½
178 Meg
300 Meg 1,000 M
(14.27
�½.050
.240
±.030
.040
�½.002
0.030
Ω
rating
0.050
Ω
2%
Power Applications
circuit
(.81
�½.05)
.710
±.050
.240
0.075
0.33
2.00
7.50
min.
1,000
MG735
1.5
Type 2
1.000
MG 785
MG 721
2,000
5%
Resistance:
0.30
Ω
0.8%
Megohms,
Ω
10,000
1.50
Ω
750
75 Meg
Type 2
MG717
(50.80
�½2.03)
(6.10
±.76)
.040
±.002
Insulation
0.15
Ω
2.0
4,000
750
600
�½
Ω
17 Meg
200
100 Meg
225 M
M
(18.03
�½1.27)
(6.10
�½.76)
(1.02
�½.05)
300
0.50
Ω
3.00
Ω
10.0
Extended Range
max.
5.00
Ω
Resistance Range
Overload/Overvoltage,
∆R
AMBIENT
high heat sinking
C
material
thermal
0.10
Ω
0.40
2.50
8.00
Note 2:
1.0
provides
Resistance -
750
High
�½
26
51
Applications where the
other) the
.140
�½.76)
(1.02
�½.05)
Thermal
TEMPERATURE,
o
In
benefits (such as
50 Meg
Alumina, or
(25.40
±1.27)
(6.10
�½.030
.025
�½.002
Power
Meg
IMS,
N/A
circuit
.315
0.075
Ω
2%
0.33
Ω
2.00
Ω
CC2520FC Standard Resistance
+25�½C to +105�½C,
Values:
7.50
Ω
.750
�½.060
board
�½.030
(1.02
±.05)
2,000
400
Meg
MG715
Type 2
�½80
ppm/�½C from
2.50
Ω
�½.002
1.500
�½.080
(3.56
�½.030
.025
�½.002
�½.060
.140
�½.76)
Overload/Overvoltage:
5 times
max.
8.00
Ω
rated
10.0
.140
the
±.030
.040
�½.05)
0.50
3.00
2.000
0.40
1.500
±.080
(8.00
3.6
2
MG740
2: Thermal
high
Type 2
sinkingHigh
K
�½
K
64 Meg
as IMS, Alumina,
(19.05
�½1.52)
board
�½.76)
(1.02
�½.05)
Extended
0.10
Standard
0.5%
Method
resistance
725
6,000
Resistance
1,000
benefits
N/A
Applications
1,500 M
power
circuit the
of
�½.76)
(.64
±.002
CC2520FC
0.15
±1%
Standard (except as noted).
from
107,
of
6,000
chip
10,000
the
resistor
-
750
300
to establish
150 Meg
where the
capability
thermal
.025
Tolerance CC2520FC
Ω
-200 ppm/�½C
Ω
+50 ppm/�½C
power
is
In
useful
1.5
(such
300 Meg
the maximum
material
MG
provides
heat
or other)
2.5
750
1
Power
200 Meg
N/A
N/A
N/A
Thermal Shock:
Mil-Std-202,
Values:
Type
MG720
2.0
(38.10
�½1.52)
(3.56
±.76)
(.64
±.05)
Note
to
(.64
(50.80
±2.03)
.140
(38.10
�½2.03)
(3.56
�½.030
.025
�½.05)
with
Range
0.15
Ω
applied
Standard
0.50
exceed 1.5 times max-
voltage not
Resistance
to
Ω
3.00
Ω
10.0
Ω
1.000
chip
1.5
in
the
0.010
Ω
St'd
5%
Note
resistor
the
the application.
-
750
film
�½
(such
75 Meg
wherepower
�½.050
the thermal
(.64
�½.002
N/A
Meg
MG716
2: Thermal
chip
Type 2
sinkingHigh to establish the
measured at
the circuit board
�½.030
.040
�½.05)
CC2520FC
ΔR
5%
-15�½C
max.
0.75
Ω
N/A
3.30
noted).
Cond. C,
Ω
0.25%
Ω
+25�½C.
resistance of
15,000
high
Type 2
1,000
benefits
70
Meg
as IMS, Alumina,
the center of
.240
�½.030
.040
�½.002
Tolerance
0.033
Standard
Standard (except as
Ω
resistor In
useful
temperature is
Meg
maximum
1.000
�½.060
.240
of
capability
3.000
�½.100
CC2520FC
operating voltage for 5 seconds.
±1%
material
MG 730
4,000
Resistance
is
The
600K
Power Applications
1,500 M
M
(25.40
�½1.52)
(3.56
�½.76)
the
.040
�½.002
imum
with "-15" rating
0.20
to
Resistance Values:
provides
heat
or other)
.240
±.030
MG 810
5.0
±.002
1.500
±.080
1
500
Ω
51
77 Meg
100 Meg
500
Meg
300 M
288
Meg
MG745
2.0
continuous
0.25
Ω
3.0
250
6,000
1,000
200
�½
750
4.00
Ω
0.015
Ω
5%
Ω
5%
1.00
Ω
4,000
750
MG721
(76.20
�½2.54)
(6.10
�½.76)
(1.02
�½.05)
(38.10
±2.03)
of
±.76)
resistor element
high
the
of
material provides chip
Type 2
sinking filmto establish
measured at the center
capabilitythe
(1.02
�½.002
Tolerance
0.040
Standard
Standard
0.8% max.
noted).
Ω
heat
chip resistor in the application.is
pad
benefits (such as is measured power
�½.050
the
(6.10
of the
.040
�½.05)
CC2520FC
Resistance:
Ω
Mil-Std-202,
Ω
Method min.
the center
.240
�½.030
resistance of the
and
Type
solder
750
temperature is
the maximum at
(25.40
�½1.27)
the thermal
resistor The
600
�½
17 Meg
75
IMS, Alumina, or other)
(6.10
�½.76)
(1.02
±.05)
0.010
Extended
Voltage
0.30
Resistance
5.00
Ω
3.30
106,
useful temperature
Meg 225 M
Moisture
Ω
2%
±1%
0.20
Ω
Ω
0.75
Values:
.710
CC2520FC
0.020
Insulation
0.033
Ω
5%
Ω
Ω
5%
1.50
10,000 Megohms,
DC
Range
5%
.315
�½.030
.040
�½.002
1.5
2,000
2
®
the recommended circuit layouts shown below).
±.060
(6.10
�½.030
(1.02
�½.05)
0.015
Ω
1:
0.050
Resistance:
0.25
Ω
(except as
4.00
Ω
MG717
.315
2.125
�½.080
Preconditioning for
5%
5% 0.040
Ω
Voltage Ratings
�½.060
.140
�½.76)
1.000
Maximum
±.030
.025
�½.002
.040
±.002
Type
termination pad
and
Type 2
X
Caddock's Micronox
1,000
temperature
are
150 Meg
2,500 M
M
at
of
�½1.27)
(8.00
of
and
Meg
Meg
MG750 2.5
of
10,000
chipthe solder
750
4,000
resistance
731
the
2.6
Type
in
resistance
establish
500 Meg
source
(18.03
center
(8.00
�½.76)
(1.02
±.05)
0.010
Power
max.
Ω
5%
Standard (except
Ω
noted).
Ω
useful
�½
128
40
the maximum
2.000
capability
±.76)
MG
10,000
7.50
0.025
Ω
5%
5%
resistor
5.0
element
(point
resistor The
400 K
temperature
the
N/A
the
(53.98
�½1.52)
of
�½.76)
pad
1.5
200
films
is measured
750
at
center of
CC2520FC
chip
the
±1.52)
ΔR
Ω
0.4%
0.033
±1%
0.20
2.00
Ω
1.00
Ω
as
Ω
5.00
Ω
MG725
resistor in the application.is
1,000
filmto
Ω
N/A
Meg
200
is measured power
�½2.03)
the the the
(1.02
�½.05)
Tolerance
0.075
Shock:
or V
Ω
AC times
Method 107,
(25.40
2
Thermal
ΩΩ
2% 0.33
rms
2.50
0.75
rated
3.30
Voltage
Overload/Overvoltage:
Ω
0.30
8.00
3.30
Ω
Ω
0.030
Type
temperature
in
Precision
the recommended
of chip)
layouts
N/A
at
(50.80
center
through
.025
�½.002
0.020
and
DC
0.033
Ω
2%
Mil-Std-202,
Ω
of
(point
Type 2
High
the
K
temperature is measured below). Maximum
(.64
±.002
0.015
Ω
5%
maximum
0.40
Ω
5
the chip resistor
The film
center
(at
1
should
shown
1.500
±.080
.140
�½.030
.040
ratings
not
the Type MG
the application.
750
Voltage
N/A
circuitmeasured at
exceed 150°C
(3.56
the
power
�½.05)
0.010
5%
2:
0.10
∆
R 0.25%
operating
Ω
+125°C
Ω
atpower
Resistors' outstanding
�½.080
the
�½.76)
.040
�½.002
0.025
Ω
5% 0.050
1,000
max.
Ω
at
1.50
Ω
All
±.030
voltage
4.00
rated
ratings
0.25
chip
815
2.0
pad and X solder pad temperature is
150 Meg
the
of
0.75
.240
termination
735 3.6
the in
MG720
resistor
6,000
2.000
resistor
7.5
element
center of
.315
�½.030
(.64
�½.05)
MG
3.125
�½.060
Cond.
0.15
0.075
Ω
2% 0.20
Ω
C,
0.050
0.33
3.00
2.00
10.0
5.00
Load
5% 0.040
Ω
5%
hours
Ω
Ω
1.00
Ω
Ω
7.50
Ω
Life:
Ω
10,000
1,000
600
�½
Ω
178 Meg
750 Meg 3,750 M
the
(38.10
�½.080
(3.56
�½.030
.040
�½.002
0.020
Ω
applied voltage
0.50
Ω
to exceed 1.5 times max-
750
192 Meg
300 Meg 1,000 M
1.500
�½2.03)
.240
±.76)
(1.02
±.05)
MG
15,000
Type
1,000
MG780
temperature range of
2
the
1,000
(6.10
1.50
4.00
Ω
0.30
are
1.00
Ω
(50.80
±2.03)
the
for continuous
with
5%
These
5%
not
0.25
Ω
�½.76)
(8.00
�½.76)
(1.02
�½.05)
0.015
Ω
5%
Range
2%
Overload/Overvoltage,
on
Ω
Resistance
0.040
Ω
ratings
Ω
�½R
pre-
500
�½
6,000
MG730 3.0
the
application
.
duty.
based
8.00
combination
of the chip resistorrecommended
Meg
chip)
Meg 750
notthe
(38.10
�½2.03)
are
through
.040
�½.05)
0.030
Ω
resistor element
performance
padthe center of is
250
should at exceed
�½1.52)
.240
center Maximum
temperaturepad (point
Type
in the
features:
77
circuit layouts shown
(79.38
�½.050
(6.10
�½.030
(1.02
�½.002
0.020
Ω
5%
not to
Ω
operating voltage for
Method
Ω
150°C
termination
of
and the solder (at temperature measured
M
X
2
below). of
.315
±.030
.040
±.002
0.025
continuous
2% 0.40
Ω
power. 5 seconds.
voltage,
0.10
Ω
exceed
0.30
rated
2.50
Ω
7.50
106,
1.000
±.060
.315
�½.030
0.075
2.00
5.00
Ω
Moisture
0.15
Resistance:
0.33
Mil-Std-202,
Ω
imum
0.050
1.50
1.500
2.0
4,000
200
51 Meg
100
Meg 1,500
MG721
10.0
.040
�½.002
4.000
�½.120
.315
�½.76)
.040
�½.05)
3.6
6,000
1,000
800
�½
Meg
MG
pad (point
Type 2
the
750
applied
Custom
Ω
Standard
Ω
and
0.50
Ω
0.5%
tolerances
max.
termination
740
4,000
values
2
as
application
�½
Ω
40
64
of
Megohms.
300
not
M
(101.60
�½.060
Maximum
voltage levels
0.4% max.
Ω
during the manufacturing
Xresistorrecommended
Meg
chip)
Meg
5,000
M
exceed
�½3.05)
stress
in
1,000
the
300
320 Meg
1,000
Meg 750 M
M
(25.40
�½1.27)
(6.10
�½.030
(1.02
�½.002
0.025
resistance values
2%
non-standard
3.00
Ω
circuit
300
should
layouts shown below).
1.000
±1.52)
(8.00
�½.76)
(1.02
±.05)
0.030
(8.00
±.76)
8.00
8.0
20,000
MG785
2.6
0.10
Ω
2.50
(38.10
150°C through
7.50
1
0.40
temperature of the chipof
2
(at
center
.
the temperature range
Type
the
1,000
as
Layout
150
Meg
0.075
5%
DC Voltage
2.00
Ω
Single-resistor
high
200
10,000
0.33
Ω
∆
R
Type
MG731
(1.02
�½.05)
Type 1:
Page
Ω
of 2
Recommended Circuit Board
�½
(8.00
�½.76)
(1.02
�½.05)
Range
(25.40
�½1.52)
process to provide
Resistance
0.15
Ω
resistor
Ω
Load Life,
�½R
8.00
Ω
can be manufactured
10.0
.140
�½.030
.025
�½.002
0.030
for stable
for high quantity applications.
even
3.00
Ω
0.50
0.10
2.50
temperature of the chipof
2
application
.
K
N/A
of
as
200 Meg
as
N/A
M
2.000
�½.080
.315
�½.030
.040
�½.002
Custom
5%
"-15" rating
resistor
750
the center
Meg
high
(at
1.5
1
chip) should not exceed
�½.120
.240
±.030
.040
±.002
St'd
Ω
resistance values and non-standard tolerances
150°C through
3.000
±.100
with
DC Voltage or V
0.40
performance
N/A
K
MG725 2.5
the temperature
5.0
Type 2
operating voltages
1,250 Meg 6,250 M
5.000
±2.54)
.240
�½.76)
15,000
1,000
288
MG
10,000
Maximum
and
range
Type
the
1,000
are
1
covered by
500 Meg 1,500
2.000
�½2.03)
also patents
.040
�½.05)
Type 2:
Life:
Ω
Applications
AC
at
3.00
Ω
Please
Load
Standard
1,000 hours
0.5% max.
10.0
Ω
contact Caddock
(6.10
+125°C
(.64
±.05)
(76.20
400
25,000
MG810 10.0
745
shown
Type 2
connections):
Meg
one or more patents,
(50.80
�½.080
under
±.76)
(1.02
�½.002
Certain
3.6
products
sense
in this
1,000
there are
(3.56
�½.030
(1.02
�½.05)
(current
continuous
the
catalog
750
K
�½
178 Meg
300 Meg 1,000 M
(127.00
�½3.05)
(6.10
�½.76)
pending.
overload conditions.
rms
Engineering.
at rated
0.15
0.50
Ω
(8.00
�½.76)
momentary
voltage,
Range
for high quantity applications.
MG735
.
the temperature
("-15" ratings).
range of
be manufactured
48,000
MG
10,000
volts
5.0
Type 2
application
�½
Ω
77 Meg
250 Meg 750 M
M
(50.80
�½2.03)
.240
�½.030
(1.02
�½.05)
can
Extended
not to
values and non-standard tolerances
rated
0.8% max.
power.
1.500
�½.080
.040
2.125
±.060
.315
±.030
.040
�½.002
Custom resistance
exceed
Overload/Overvoltage,
�½R
Resistance Range
60%
10,000
1,000
500
400
128 Meg
500 Meg 2,500
1,000
MG730 3.0
750
6,000
6.000
�½.060
(6.10
�½.030
(1.02
�½.002
Please
with "-15" rating
Applications Engineering.
values
�½.120
.315
�½.76)
.040
�½.05)
.350
�½.040
(1.02
�½.002
Maximum
±.002
can
St'd
manufactured for high quantity
max.
operating
resistance values
higher than
tolerances
(8.00
±.76)
.040
±.05)
Customcontact Caddock and non-standard
the
(53.98
(38.10
±1.52)
0.8%
applications.
1.500
15.0
1,000
1
C
standard
Meg
10,000 M
(152.40
�½2.03)
Meg
300
Meg
1,500
MG815
Fig. 1A:
30,000
layout
2
Type
recom-
150%
K
384 Meg
2,000
working
M
Kelvin layout
(8.89
�½1.02)
(1.02
�½.05)
2
be
voltages
C
Kelvin
Type
Overvoltage capabilities of
of
3.6
6,000
1,000
300
�½
64
MG740
�½3.05)
Fig. 1B:
(38.10
�½1.52)
(8.00
�½.76)
(1.02
�½.05)
C
C
C
Load Life,
.315
in
0.5%
applications.
.040
±.002
Please contact
Range
3.125
±.060
.315
�½.030
.040
table
Thermal Shock:
for high
adding
Method 107,
may
Standard
be specified by
quantity
max.
"-15"
1.000
�½.060
listed
±.030
the
�½.002
can
Resistance
Caddock Applications Engineering.
to the
B
be manufactured
Mil-Std-202,
max.
∆R
1.500
±
780
4,000
.125
values
Type 2
0.20Ω
200
C
Ω
40 Meg
A
600
750 Meg
750 M
M
3,750
192 Meg
150 Meg
ratings).
MG
0.8%
2.6
�½
MG731
mended for
all models and
1,000
below
(8.00
voltages
±
for
7.5 15,000
1,000
(79.38
±1.52)
.240
±.76)
(1.02
±.05)
X
Extended Range
(25.40
�½.100
model number (Example:
ΔR
0.25%
Applications Engineering.
�½.05)
Cond.
Standard
C,
MG750-15).
(38.10
Kelvin layout recom-
values, (except "-15"
recommended for higher
�½.030
(1.02
X
3.000
�½1.52)
(8.00
�½.76)
.040
�½.002
Please contact Caddock
max.
Note that overload
Fig.
5.0
3.18)
1A:
with
0.5% max.
1,000
1 K
C
are in shaded areas.
1,500
1B:
Kelvin layout
.315
±.030
C
MG745
Models
15,000
low inductance construction
288 Meg
C
500 Meg
Fig.
M
Type 2
St'd with
C
C
rating
"-15"
N/A
(76.20
�½2.54)
(6.10
�½.76)
.040
±.002
.240
�½.030
.040
�½.002
2.000
Solderable Leads
8.0
20,000
800
1,000
5,000 M
values.
MG
Resistance
10,000
layout recom-
1,000
750
C
to ±0.1%.
Meg
resistance
of
4.000
±.120
(6.10
�½.030
(1.02
�½.05)
ratings do
and
apply to
Ratings
resistors.
(8.00
1,000
1B:
(50.80
�½.080
M
MG735
3.6
785
Tolerances from ±1.0%
Ω
320 Meg
300
the source
Kelvinfor
Preconditioning for Power
Resistance:
Mil-Std-202, Method 106,
±.05)
(101.60
layout
mended for
Micronox
Non-Inductive
�½
films
X
are
Meg
recommended
�½2.03)
higher
±.76)
C
(1.02
�½.05)
below
1,000
Caddock's
values
Type 2
®
0.20Ω
Fig.
= Current connection
resistance
178 Meg
C
Pattern are
For immediate
and
�½.76)
(1.02
�½.002
Moisture
developing Low
0.8% max.
matched
1A:
Kelvin
C
Range
X
X
in
C
not
Voltage
the "-15"
engineering assistance
with "-15" rating
Ratio TC
C
Models
10,000
Caddock's
1,000 400
�½
128 Meg
500 Meg
Fig.
non-shaded
±3.05)
.315
overvoltage
.040
2.125
�½.060
St'd
0.8% max.
Extended
with
Resistance
in
areas.
X
2,500
MG750 5.0
IN
Type 2
C
Temperature
connection
recom-
1,000 1 K
400 Meg
1,250
outstanding
values.
Resistance
.040
ratingsfor
0.4% max. High
operating in the table are
range, of
(53.98
�½1.52)
.315
�½.030
.040
±.002
Encapsulation:
DIMENSIONS
MG 810
values below
High Voltage Resistors'
Meg
resistance
5.000
±.120
(8.00
�½.76)
(1.02
�½.05)
AND
Kelvin
ranges and
C
C
resistors shown voltage
Conformal.
Fig.
M
1B:
(127.00
±3.05)
.315
power
±.05)
the
Fig.
=
1A:
INCHES
Coefficient, for standard
64
resistance
high
6,250 M
Kelvinfor higher
±.030
C
(1.02
�½.002
ΔR
our Applications Engineering and
ratings
Type
Sense
10.0
(MILLIMETERS)
MG Precision
1,000
All
maximum
Temperature Silicone
we will
25,000
mended for
6,000
layout
2
0.20Ω
300
C
1.500
layout
sets,
voltage resistor
(8.00
±.76)
write
Extended Range
Mil-Std-202,
max.
X
"-15"
Shock:
Meg
300 Meg
recommended
�½.060
(8.00
�½.030
call or
X
�½
1,500 M
Type
MG740
S
3.6
0.8%
Method 107,
Thermal
.315
�½.76)
Min."
�½.05)
(38.10
�½.060
3.125
for
80
C =
7.5
for
in combination features:
mended
Engineering
2
0.20Ω
resistance
750 Meg
recommended
�½1.52)
higher
"-15
(1.02
�½.002
S
duty.
Life:
1,000 hours
are
+125°C
on
rated
below
1,000
Current
values
Type
pre-
X
3,750 M
combination
15,000
X
X
MG780
ppm/°C of performance with
600
�½
192 Meg
tolerances as
(79.38
�½1.52)
are
the best
�½.05)
to "Standard Max."
.040
S
X
be
resistance values.
fromfor continuous
Load
C,
These ratings
at
resistor
at
product
to
�½.100
.350
±.040
.040
±.002
Cond.
offer
our high voltage
based
Applications
815
connection
Sales
15.0
30,000
1,000
1 K
384 Meg
2,000 Meg
pleased
6.000
±.120
(8.00
�½.76)
(1.02
�½.002
10,000 M
(152.40
±3.05)
.240
�½.030
.040
solution from
ΔR
0.25% max.
and Corporate Office
MG
3.000
tight
Current connection
1,000
(8.89
±1.02)
(1.02
±.05)
Solderable
voltage, not
Leads
power.
Derating
Sense
15,000
Hwy.
2
S
5.0
connection
1
1,500 M
Meg
MG745
=
as
Umpqua
100
Type
C
Curve:
Non-Inductive
levels applied during the manufacturing
17271 North
±0.1%.values as high as
K
X
288
S
X
500 Meg
resistance values.
stress voltage
Performance
to exceed rated
1717 Chicago Avenue
�½.76)
.040
�½.05)
(6.10
�½.030
(1.02
�½.002
capabilities.
�½.120
.315
(76.20
�½2.54)
4.000
Single-resistor
10,000 Megohms.
S
20,000
MG785
=
8.0
C =
MG resistors
Type 2
1,000 800
�½
320
stability of
5,000 M
connection
Type
Sense connection
low
demonstrated
Meg
X
1,000
shaded areas.
2.125
�½.060
(8.00
�½.76)
(1.02
provide
Encapsulation:
Riverside, California
Method 106,
S
with
Roseburg, Oregon 97470-9422
inductance construction are in
Meg
0.01%
(101.60
�½3.05)
process tomodels
Moisture Resistance:
Mil-Std-202,
Caddock's
92507-2364
S Current
Models
80
have
X
High
Load Life,
�½R
for manufacturedperformance even
.315
�½.030
.040
�½.05)
S
Most
are stable
with
Resistance Range
resistor
Temperature Silicone
�½.002
Maximum
POWER OR
60
extended
400
life testinghigh as
M
(53.98
�½.120
• web:
�½.030
(1.02
�½.002
ΔR
continuous
5.0
1,000
Meg 2,500
128 Meg
MG750
Sense connection
2
Type
(8.00
�½.76)
.040
�½.05)
RATED
10,000
.315
momentary overload
max.
S
(541)
hours
with
Phone:
=
10.0
496-0700
in
Type
Caddock's
load
K
�½
400 Meg
as
500
caddock@caddock.com
under
www.caddock.com
S
0.4%
conditions. a serpentine resistive
Phone: (951) 788-1700
Conformal.
per 1,000
VOLTAGE, %
40
2
operating voltages
e-mail:
of standard
in
5.000
�½1.52)
Non-Inductive Design which uses
:
S
Models
non-shaded areas.
1
1,250 Meg 6,250
are
RATED
25,000
MG810
S S
0.5% max.
48,000
Actual
range values.
1,000
Non-Inductive Resistance Pattern
M
(127.00
�½.060
(8.00
caddock.com/contact/dist.html
ratings).
MG750 -100M -
width
For
magnitude of current.
listed
connection should
.315
�½.76)
(1.02
�½.002
�½.030
.040
area
Fax:
Note:
7.5
volts ("-15"
Type 2
trace is based on
192 Meg
Distributors
Point of
3.125
�½3.05)
see
Maximum
�½.05)
S
shown.
Standard
1,000
1%
(541) 496-0408
resistance
15,000
of current
1,000 600
�½
Caddock
750 Meg 3,750 M
by country
pattern
be in the
�½.05)
Load
voltages 60%
hours at
Fax: (951)
at rated
operating neighboring lines to than the
369-1151
higher
+125°C
values
MG780
20
that provides
S
Life:
for
carry
S S
(79.38
�½.120
(8.00
�½.040
(1.02
�½.002
6.000
�½1.52)
.350
�½.76)
.040
Overvoltage capabilities of 150%
K
384 Meg
2,000
working
M
(152.40
�½3.05)
Number:
�½.05)
voltage,
"-15"
to exceed rated
0.8% max.
current in
of standard
Model
Tolerance
rating
30,000
1,000
MG815 15.0
power.
28_IL110.1004
0
performance
RHOPOINT
Electronics, Inc.
25
LTD
LTD.
1
175
S
been proven through
�½.120
listed
�½.030
the
�½.002
COMPONENTS
75
in directions,
St'd with
specified by adding
(0)1883 717988
(8.89
�½1.02)
(1.02
table
Tel: +44
cancellation
This
RHOPOINT COMPONENTS
is based
has
S
275
of current. Point of connection should be in the area
may be
not
achieving maximum "-15" to the
exceptional
Type 2
trace
125
on magnitude
Meg 10,000
opposite
.040
thereby
© 2004 Caddock
.315
225
Note:
Holland Road
Type 2
shown.
Range
voltages for
Hurst
current
1,000 800
�½
320 Meg
1,000 Meg 5,000 M
4.000
8.0
20,000
MG785
Actual width of
Green,
and values, (except "-15" ratings).
(101.60
�½3.05)
(8.00
�½.76)
(1.02
�½.05)
Resistor Value:
Holland Road,
all models
Fax: +44 (0)1883 712938
Extended
0.8% max.
Now
combination with resistance tolerances as
the
•
Type MGinPrecision High Voltage Resistors' outstanding
to 10,000
power ratings and maximum operating voltage ratings
All
Megohms and
Max."
80
Thermal resistance is provided
to optimize high power designs when
voltage levels applied during the manufacturing process to
ppm/°C
with Extended Resistance Range
• Thermal resistance is provided
to optimize high power designs when utilizing
Min." to "Standard
Additional Models
higher thermal conductivity circuit board substrates such as IMS
from
utilizing
or Alumina.
"-15
high
combination
resistance
values
features:
optimize
Megohms.
such as IMS
are
Alumina.
Long-Term Stability and Precision Tolerances.
of performance
Alumina.
•
MG
higher
thermal conductivity
tight as
10,000
high power
as IMS or
or
for continuous duty. These ratings are
under
on pre-
Thermal
thermal conductivity
circuit
board
substrates
utilizing
660
•
±0.1%.
tight as
Single-resistor
is provided to ohm
ppm/°C, Combined with Excellent
Temperature Coefficient as
as
circuit
as
80
at
substrates such
designs when
provide for stable resistor performance even
based
momentary
higher
Non-Inductive Performance
• Resistance range down to
operating
board
±5%,
0.050 ohm at
±2%,
0.010
voltages as
continuous
higher thermal conductivity
as 10,000
•
•
Single-resistor
range
have demonstrated stability
high as
such
at
at IMS
stress voltage levels applied during the manufacturing
•
680
•
Maximum
at down to 0.010 ohm at substrates ohm
down
0.050
MG
Resistance
values as
to 0.010
board
±5%,
of 0.01%
Type MG resistors
±1%.
high
circuit
ohm at
Megohms.
ohm
as
±2%,
or Alumina.
conditions.
overload
with
Resistance range
±5%,
±2%,
Most tomodels are stable
Voltage
performance
and 0.10 ohm
Caddock's Micronox
®
resistance films as high
0.050
are the source
Preconditioning for
for
voltages 60% higher than
process
Maximum operating
manufactured
Ratings
Caddock's
48,000 volts
extended load
values
•
•
Maximum hours
at
±1%.
High
0.010
life Resistors' standard of
at
±2%,
All powerprovide
Power and
resistor serpentine
the
even
per
and 0.10 ohm
in
("-15" Ratings).
ohm at
±5%,
0.050 ohm
1,000 continuous operating voltages
testing of as
at
±1%.
to
MG 710
Resistance
Precision
range down
Non-Inductive Design which usesoperating voltage ratings
a
ohm
the
Low
•
inductance provides excellent high frequency and pulse response
momentary overload conditions.
adding "-15" to
resistive
Type volts ("-15"
capabilities
Voltage
of standard
outstanding
MG
ratings and maximum
under
• and 0.10
range values.
Overvoltage
ratings).
of 150%
working
listed in the table may be specified by
the model
48,000
inductance
±1%.
resistance
pattern that operating
•
712
0.10
of performance
excellent
and
MG
Low
voltages
at
all models and values, (except
are Maximum
(Example: MG750-15). Note that overload and
for continuous duty. These ratings are carry current in
combination
ohm
for
provides
features:
high frequency and pulse response
number
provides for neighboring lines to than theon pre-
higher based values
high frequency
through
• Low inductance provides excellent capability.
"-15" ratings).
High pulse handling and
150% has been proven
and
•
•
Overvoltage capabilities of
overload
capability.
working
pulse response
involtage levels voltages 60% by
to
adding "-15"
resistors.
of standard
This
inductance provides
overload
high frequency and pulse response
the table may applied
apply
maximum cancellation
exceptional performance
opposite directions, therebyspecified
achieving the manufacturing
stress
• High
Resistance
listed
to the
Low
overvoltage ratings
be
not
during
the "-15"
do
•
•
voltages
pulse handling
and
high as 10,000
±0.1%.
the
values
and
excellent
from
•
Single-resistoruse
Tolerances
values, (except
motor
ratings).
controls,
model numberover the
"-15" resistors shown in the table are
This
High
forof
for
in as
power
that demands
speed
many
714
•
choicehandling
equipment
±1.0%
to
Megohms. highest
years
of flux
the that overload
•
MG
Best
pulse
all
for
switching overload capability.
Best
choice
models and
power supplies, motor speed controls, and high
fields
ranges for
entire length of Note resistor. even
supplies,
"-15"
and
Resistance
(Example: MG750-15).
high
process to provide for stable resistor performance
from
•
switching
•
•
Maximum Tolerances
and overload
to ±0.1%.
high
High
•
pulse handling
from ±1.0% TWT amplifiers, X-ray
reliability
Temperature Coefficient, for standard resistance
and stability, including
capability.
efficient non-inductive
Max."
apply
•
•
Resistancecontinuous operating voltages as
motor
as
range,
controls,
and
"-15 Min." to "Standard
do conditions. to the "-15" resistors.
Best choice for switching power supplies,
speed
of
and
overvoltage overload not
high
current sensing applications.
under momentaryratingsconstruction is accomplished without
MG
current
ppm/°C
715
48,000
80
sensing
in
ratings).
systems,
choice
("-15"
applications.
with resistance
electronics.
geophysical
combination
supplies, motor speed controls,
Resistance any performance resistors shown in thethe values
instruments,
derating of ranges for "-15" advantages.
Best
volts Coefficient, for standard resistance range, of
and
Maximum operating voltages 60% higher than table are
high
•
•
Temperature
as
for switching power
and medical
tolerances as
current sensing applications.
tight
capabilities of 150% of standard working
•
80 ppm/°C in combination with resistance tolerances as
Overvoltage
±0.1%.
Non-Inductive
"Standard specified by adding "-15" to the
MG 716
current sensing applications.
listed in the table
Performance
may be Max."
Min."
voltages±0.1%.
Flip Chip
values,
0.02%
a
per 1,000
mount
Dimensions
from "-15
pads for
for
chip
soldering.
for all models
life
Version
Resistance
•
FC
Max.
Flip Chip
Version
is
"-15"
mount version with
model
and (millimeters)
Most models
Specifications:
Note that overload
are manufactured with Caddock's Non-
Style
Typical
-
extended
and
stability of
(except
a
surface
ratings).
version with solderable pads
to
flip chip
soldering.
-
Overload
Dielect.
is surface
hours
in inches
number (Example: MG750-15).
Style
Continuous
solderable
flip
tight as
FC
Model
720
Watt-
MG
Non-Inductive
for
flip chip
uses
for standard
Rating
from
Version
is a
Standard
by
resistance
±1.0%
as demonstrated
Extended
version with solderable pads
Performance
a serpentine resistive pattern that
range
to ±0.1%.
Inductive Design which
performance
-15
Flip Chip
surface mount
No.
age
FC -
Volt.
A
B
C
•
Type MG resistors have
Strength Min.
Power Capability
0.01%
Resistance Tolerances
andMost
overvoltage
neighboring
not
Tolerance:
with Caddock's
ratings do
exclusive design
to
current
•
Style
reliability testing.
demonstrated
Min.
is
Capability
of
Information
version with solderable
models
Non-inductive
soldering.
to carry
the "-15"
in opposite
stability
Information
Oper.
Resistance
apply
Max.
are manufactured
provides
lines
Style FC -
Coefficient, for
Version
a surface mount
of
.313
�½.020
.094
�½.015
.025
for
for
with Caddock's
soldering.
shown in the resistors.
Flip Chip
standard
Power
Max.
standard
pads
flip chip
MG
•
MG650
725
0.5
hours
Resistance
1
750
load life
Power Capability Information
Temperature
resistance range,
Resistance ranges
inches
(millimeters)
uses a
cancellation of flux fields
for "-15" resistors serpentine table are
per 1,000
in
Type
extended
testing of
Meg
Applications
Tolerance
resistive
Dimensions
Non-Inductive
thereby
and
and (millimeters)
Design which
maximum
directions,
�½.002
in
Resistance Range
achieving
Resistance
Dimensions
General
Applications
200
�½
5
General
Applications
This
combination
performance
N/A
High Power Applications
through
from "-15 Min."
in inches
exceptional
with resistance
High Power
proven
has
tolerances
N/A
been
(7.95
�½.51)
(2.39
�½.38)
Comments
80 ppm/°C in
600
Resistance
Comments
to "Standard Max."
Thermal Resistance
R
θJC
-
R
resistance range values.
in
General Applications
Thermal Resistance -
as
θJC
highest
pattern that
(.64
�½.05)
in inches and
the resistor.
lines to carry
non-inductive
Max. Chip
Power
Rating
Power Capability Information
Max. Chip
Power
Rating
over the
provides for
of
(millimeters)
entire length
neighboring
This efficient
current in
Dimensions
Model
Standard
�½1%, �½0.5%, �½0.25%, �½0.1%
High
(J) to Solder
the
equipment that demands
Pad (C)
Temperature
MG
Model
±0.1%.
717
many years of use
.313
�½.030
Film
Power Applications
Temperature
.109
�½.025
.025
�½.002
C
at
70° C
N/A
Film (J) to Solder Pad (C)
tight
0.5
1
600
Resistance
200
Rating
�½
8 Meg
N/A
MG655
asexceptional
Type
Max.
construction
B
is
models
achieving
accomplished
This
reliability
Min.
stability,
750
Power
note
TWT amplifiers,
Applications
(7.95
�½.76)
(2.77
�½.64)
directions,
inches
C
(millimeters)
without derating of any
Max.
Non-Inductive
B
Performance
Min.
(.64
�½.05)
A
A
D
High Power
note 2)
General
has
Most
St'd
and C
available with
Comments
(see
(see note 1)
and
performance
Applications
Thermal Resistance -
R
θJC
Max. Chip
including
1)
been proven
X-ray systems,
opposite
Dimensions in
thereby
are
rating
D
maximum cancellation
(see note 2)
through
Model
�½1%
Film (J)
Resistance
Solder Pad
Chip
Power Rating
stability of 0.01%
θJC
•
MG660
yearsresistors
Type
Max.
demonstrated
N/A
Thermal
Meg
.
note 2)
-
R
(C)
Temperature
.150
±.007
fields
�½.002
±.007
the
with
C
"-15"
length
D
min.
the
Pattern
Type MG of
Min.
instruments and
at 70° C1)
demands
to
the highest
Max.
�½.030
.094
�½.015
models
Non-inductive Serpentine
resistor. This
have
performance advantages.
±.005
.035 min.
of with
Comments
.500
many
geophysical
Ω
in
0.015
Ω
750
(see70° C
use
equipment
400
Watt
electronics
that
Most
.120
over
manufactured
Solder
Solder Coated Pads
Caddock's
of
(2.39
�½.38)
.025
.120
B
are
.027
flux
A
Caddock's
.027
±.005
entire
Model
±.007
medical
.150
±.007
.035
(see
1
0.6
1,000
Ω
Temperature
Film (J) to Solder
N/A
at
�½
Coated Pads
22.7°C/Watt
Pad
0.010
150°C
0.010
in extended load
note
testing
10
22.7°C/Watt
(C)
(12.70
�½.76)
(3.81
±.18)
0.015
Ω
0.75 Watt
150°C
(.64
�½.05)
±.18)
(.69
±.13)
±.13)
(0.89
(0.89 min.)
MG 721
per
CC1512FC
hours
1,000
of standard
(3.81
±.18)
(3.05
±.18)
(3.05
(.69
C
�½1%
Max.
A
non-inductive
Extended Range
min.)
D
a accomplishedresistive
reliability and
Min.
stability, including life
TWT amplifiers, X-ray
Non-Inductive
.120
B
Design construction
.035 min.
serpentine without
which
.035 min.
is
uses
efficient
(see note 2)
(see note 1)
CC1512FC
.150
±.007
.120
.120
±.007
.022
.027
±.005
.094
�½.015
.025
�½.002
±.007
±.003
.750
�½.030
.150
±.007
±.007
.022
±.003
.035 min.
.150
±.007
22.7°C/Watt
0.010
Ω
150°C
22.7°C/Watt
N/A
150°C
deratingthat
(3.05
±.18)
0.020
10.0
resistance range
Ω
Type 1
Ω
600
Watt
�½
2,000
Ω
values.
Meg
MG680 0.8
0.75
Watt
22.7°C/Watt
150°C
pattern
±.007
any performance advantages.
Solderable
Coated Pads
0.020
10.0
Ω
(3.81
±.18)
(3.05
±.18)
(.69
±.08)
Solderable
systems, geophysical
0.015
Ω
750
0.75
Watt
medical
20
electronics.
Dimensions in
(3.81
±.18)
of
(millimeters)
Temperature Coefficient:
Solder
Pads
current in
instruments, and
N/A
Resistance
neighboring
min.
carry
Pads
.150
±.18)
provides for
.027
±.005
(0.89
(0.89
lines to
Solder Coated Pads
.120
±.007
(.56
±.08)
±.13)
.035
min.)
min.)
(19.05
�½.76)
(2.39
�½.38)
CC1512FC
(3.81
and
(3.05
±.18)
(.56
(0.89 min.)
22.7°C/Watt
0.010
Ω
0.015
Ω
0.75 Watt
150°C
inches
±.007
(.64
�½.05)
±.007
Specifications:
Max.
.120
.022
±.003
.035
.150
(3.81
±.007
.150
(3.05
±.007
.027
.027
±.003
.050
(0.89 min.
(.69
Watt-
MG
CC2015FC
730
Model
0.020
Continuous Dielect.
has been proven through
150°C
opposite directions, thereby achieving maximum
Pads
Pads
±.007
±.003
±.13)
min.
min.
This
1.0
No.
4,000
Ω
Ω
Type 1
Ω
Strength
800
Watt
N/A
exceptional performance
Watt
0.75
22.7°C/Watt
10.0
Ω
.094
�½.015
.025
�½.002
±.18)
Resistance Tolerance:
Solderable
cancellation
CC1512FC
.200
±.18)
.150
±.18)
.050 min.)
Solderable
1.000
A
�½.040
.200
±.007
1.0
�½
16.0°C/Watt
N/A
0.020
10.0
150°C
Standard Extended
CC2015FC
-15
(3.81
±.18)
(3.05
(.56
±.08)
(0.89 min.)
Solderable Pads
1.0 Watt
150°C
0.020
Ω
10.0
Ω
age
B
750
50
16.0°C/Watt
Meg
MG710
.120
.035
.150
±.007
(.64
C
±.18)
(.69
±.08)
±.08)
min.)
min.)
(5.08
±.18)
(3.81
(3.81
±.18)
Resistance
(.69
(25.40
�½1.02)
(2.39
�½.38)
�½.05)
±.007
the
.022
±.003
(1.27
(1.27 min.
TC Specifications
0.75
Min.
Watt
22.7°C/Watt
Max.
0.020
Ω
in equipment that demands the highest
150°C
of
(5.08
±.18)
10.0
Ω
Max.
Solderable Pads
Min.
many years of use
Oper. Volt.
flux
±.007
.200
.200
±.007
Range
over
Specifications:
of
entire
resistor.
Resistance
(3.81
fields
.150
±.18)
(3.05
(.56
.200
±.18)
.027
±.003
length
min.
.050
Dimensions in inches and (millimeters)
±.007
.032
.032
±.005
.065
(0.89 min.
the
Solderable Pads
This
.250
±.007
±.007
±.005
±.08)
min.
min.)
Max.
Ω
CC2015FC
.250
±.007
.065
1.0 Watt
16.0°C/Watt
150°C
0.020
Ω
10.0
Tolerance
Coated Pads
1.5
Watts
13.0°C/Watt
0.010
0.020
150°C
±.020
.140
�½.030
.025
�½.002
±.18)
Resistance Range
Model Watt- Continuous
Ω
Overload
Ω
Ω
Dielect.
1.5
Watts
.094
±.015
(5.08
±.002
.313
13.0°C/Watt
X-ray
.400
�½.060
(6.35
±.18)
non-inductive construction is accomplished
Pads
150°C
efficient
±.18)
.025
(5.08
±.007
(.81
.027
±.003
(1.66
(1.66 min.
Solder
Solder Coated
without
0.010
0.020
Ω
including
�½
TWT amplifiers,
N/A
(5.08
±.007
(3.81
±.18)
(.69
±.08)
±.18)
(1.27 min.)
±.18)
±.13)
±.13)
min.)
min.)
.200
.050
.5
600
750
800
5 Meg
N/A
MG
750
20
16.0°C/Watt
Meg
N/A
reliability and stability,
Ω
Strength
1.0
200
Ω
-15
N/A
Standard Extended
(10.16
�½.152)
(3.56
�½.76)
(.64
�½.05)
MG712
age
650
1,000
Ω
Rating
(6.35
(.81
No.
CC2520FC
Oper. Volt.
Type 2
A
±.51)
(2.39
±.38)
(.64
.150
B
C
±.05)
MG 735
0.6
CC2015FC
Solderable
(7.95
Watt
150°C
0.020
10.0
Min.
CC2520FC
.250
±.007
.200
.200
±.18)
Standard and
Tolerance:
.032
±.08)
.065
±1%,
from -15�½C
Pads
.250
±.007
Resistance
±.004
Standard
min.
min.
(5.08
±.18)
(3.81
(.69
Max.
Max.
Solder Coated Pads
�½80
min.)
+105�½C,
1.5
Watts
Min.
Watts
13.0°C/Watt
150°C
.250
±.007
.025
(5.08
±.007
.041
.041
±.004
.040
(1.27 min.
.200
.040
10.0
Ω
150°C
±.030
.150
±.18)
0.025
systems,
MG 655
0.010
Ω
Ω
0.020
Ω
geophysical instruments, and medical
11.5°C/Watt
N/A
electronics.
.562
�½.060
(6.35
±.007
of
.032
�½.002
±.007
St'd with
±.005
(1.02
(1.66
ppm/�½C
±0.5%,
Pads
to
Pads
±0.1%
.109
±.025
any
±.18)
performance advantages.
Solderable
±0.25%,
.313
derating
�½.030
(6.35
±.18)
(5.08
±.002
(.81
"-15"
Watts
11.5°C/Watt
150°C
10.0
Solderable
±.10)
±.10)
min.)
min.
0.025
Ω
.250
±.007
.025
�½.002
±.007
(1.04
(1.04
±.005
.200
±.18)
.032
±.13)
.065 min.)
.5
600
750
1.5
200
Ω
8 Meg
N/A
CC2520FC
(6.35
±.18)
(5.08
±.18)
(1.02 min.)
.313
�½.020
.094
�½.015
Caddock's Micronox® resistance
Preconditioning for Power and Voltage
•
Resistance
receive aluminum wire bonds.
films are the source of the
and
termination
ratings do not apply to
Ratings
resistors.
Tolerances from ±1.0% to ±0.1%.
overvoltage
the "-15"
MG
pads to
MG Precision
heat sinking of the chip, includes bondable
650
surface for solder down
resistance films are the source of
All power
for Power
Caddock's Coefficient, for
wire bonds.
Resistors' outstanding
when utilizing
ranges for
and maximum operating voltage
table are
Preconditioning
ratings
"-15"
and Voltage Ratings
ratings are
pads
Type
Micronox
®
provided to optimize high
range, of
to receive aluminum
High Voltage
Thermal resistance is
•
•
Temperature
standard resistance
power designs
Resistance
resistors
are based on
for continuous duty. These ratings
shown in the
pre-stress
pads to receive aluminum wire bonds.
MG 655
combination of performance features:
voltages for
Coefficient as tight as 80 ppm/°C,
ratings).
"-15"
Page 1 of 2
Temperature
-
all models and values, (except
applications with bondable termination
(Example: MG750-15). Note that overload
Style
to for solderBond version for hybrid
chip, includes bondable
Excellent Long-Term Stability and Precision Tolerances.
WB
Wire down heat sinking
of
the
surface
receive aluminum wire bonds.
the
chip,
Combined with
model number
for solder down heat sinking
of
termination
surface
includes metallized back
pads
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
•
•
Recommended Circuit Board Layout
•
•
Recommended Circuit Board
Resistance Range to 10,000 Megohms and Additional Models
Now with Extended
Layout
•
(current and sense connections):
Design Assistance in Developing High Voltage Resistor Sets with
Recommended Circuit Board Layout
(current and sense connections):
Temperature Coefficient as tight as 80 ppm/°C, Combined with Excellent Long-Term Stability and Precision Tolerances.
Low TC Tracking.
(current and sense connections):
•
•
•
•
RHOPOINT COMPONENTS
St'd with "-15" rating
LTD
RHOPOINT COMPONENTS LTD.
1,000
0.8%
(0)1883 717988
Oxted, Surrey,
30,000
9AX
2
LTD
with resistance tolerances as
(152.40
�½3.05)
from
�½1.02)
(1.02
�½.05)
"Standard Max."
1 K
384 Meg
2,000 Meg 10,000 M
MG815
Road, Hurst Green,
Type
Tel: +44
max.
IL-110.0201
RHOPOINT COMPONENTS
80 ppm/°C
RH8
in combination
Holland
15.0
(8.89
"-15 Min." to
Holland Road
1883 717988
Fax: +44
max.
Phone: Surrey, Hurst9AX
+44 (0)
RH8 Green,
27.1
(0)1883 712938
web:
RHOPOINT
Dimensions in inches and (millimeters)
COMPONENTS LTD
Range
www.rhopointcomponents.com
Holland
as
Oxted, Road,
Extended
Applications Engineering
Sales
0.8%
IL106.0802
Office
tight
Hurst Green
±0.1%.
Resistance
e-mail:
sales@rhopointcomponents.com
Specifications:
and Corporate
Avenue
Non-Inductive Performance
web: www.rhopointcomponents.com
Max.
Fax:
+44 (0)
Umpqua
9AX
1883 712938
e-mail:
sales@rhopointcomponents.com
Oxted, Surrey,
with
9AX
Model
+44
Continuous
Watt-
Phone:
Models
RH8
717988
1883
Hwy.
in
17271
Surrey,
resistors
Overload
demonstrated
RHOPOINT COMPONENTS LTD
web: www.rhopointcomponents.com
1717 Chicago
RHOPOINT
0.01%
Oxted,
North
(0)
RH8
low inductance construction are
-15
shaded areas.
•
Fax:
+44
MG
1883
97470-9422
Strength Min.
stability of
COMPONENTS LTD.
are manufactured
California 92507-2364
Type
+44
Oper.
712938
have
Dielect.
Standard Extended
Solderable Leads
No.
age
A
B
C
Phone:
Models
1883 717988
e-mail: sales@rhopointcomponents.com
Tolerance:
with Caddock's
Roseburg,
(0) (0)
with
Volt.
Rating
Non-Inductive Resistance Pattern are in non-shaded areas.
Most models
Resistance
web: www.rhopointcomponents.com
Oregon
Caddock's
Riverside,
Max.
Max.
Min.
27.1 IL106.0802
per
(541)
hours
Fax:
+44 (0)
496-0700
in extended load life testing of standard
e-mail: sales@rhopointcomponents.com
Non-Inductive Design which
High
e-mail: caddock@caddock.com • web: www.caddock.com
Resistance Range
Temperature Silicone
resistive
Phone:
1,000
1883 712938
Phone: (951) 788-1700
.313
�½.020
.094
�½.015
.025
�½.002
Encapsulation:
uses a serpentine
Conformal.
Tolerance
IL106.0802
600
200
�½
5 Meg
N/A
750
N/A
MG650
0.5
Type 1
27.1
IL-110.019
resistance range
(2.39
�½.38)
(7.95
�½.51)
see caddock.com/contact/dist.html
For Caddock Distributors listed by country
pattern that
(.64
�½.05)
Fax: (541) 496-0408
values.
369-1151
provides for neighboring lines to
Fax: (951)
IL106.0802
carry current in
Applications Engineering
Standard
�½1%, �½0.5%,
27.1
.109
�½.025
This
0.5
Umpqua Hwy.
1
exceptional
Type
performance
200
�½
been proven through
.313
�½.030
(2.77
�½.64)
directions, thereby achieving
Sales and Corporate Office
has
N/A
opposite
.025
�½.002
maximum
�½0.25%, �½0.1%
cancellation
600
750
8 Meg
N/A
17271
Caddock
1717
•
RH8 9AX
•
UK
Chicago Avenue
(7.95
�½.76)
(.64
�½.05)
©
MG655
North
Electronics, Inc.
2004
28_IL110.1004
many years of
97470-9422
use in equipment that demands the highest
.500
�½.030
.094
�½.015
.025
�½.002
the
with "-15"
Hurst Green
•
the resistor. This
rating
of flux fields over
St'd
entire length of
Surrey
�½1%
92507-2364
Roseburg, Oregon
Riverside, California
1,000
750
400
�½
10 Meg
N/A
N/A
MG660 0.6
Email
•
reliability
496-0700
Type 1
(12.70
�½.76)
web: www.caddock.com
construction is accomplished
788-1700
e-mail: caddock@caddock.com
efficient non-inductive
Extended Range
sales@rhopointcomponents.com
•
(2.39
�½.38)
(.64
�½.05)
Phone: (541)
and stability, including TWT amplifiers, X-ray
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
Oxted,
Hurst
width
Surrey, RH8
inductance construction
magnitude of current. Point of
Note:
Models
Green
current
from
Actual
with
in shaded
.315
�½.030
.040
�½.002
LTD
5.000
�½.120
efficient non-inductive
•
RHOPOINT COMPONENTS
9AX
1,000
±1.0% to
RHOPOINT COMPONENTS
ratingsconstruction is to the "-15" resistors.
Resistance
25,000
of
9AX
2
trace is based on
RHOPOINT
X-ray
connection should be in the area shown.
e-mail: sales@rhopointcomponents.com
reliability and
low
717988
trace is based on
are
±0.1%.
of
areas.
Point
(127.00
�½3.05)
and
should be in the area shown.
web: www.rhopointcomponents.com
without
1 K
400 Meg
1,250 Meg 6,250
Solderable
web: www.rhopointcomponents.com
Leads
MG810
Actual width
stability, including TWT amplifiers,
M
COMPONENTS LTD.
do not apply accomplished
Oxted,
Tolerances
(8.00
�½.76)
(1.02
�½.05)
Standard
0.5% max.
Phone:
+44
Surrey, RH8
Note:
10.0
(0) 1883
current
LTD
of
Type
magnitude current.
of connection
overvoltage
Road,
with
712938
instruments, and resistance range, of
Hurst Green,
Non-Inductive Resistance Pattern are in non-shaded areas.
•
Holland
Models
1883
Caddock's
LTD
standard medical electronics.
6.000
�½.120
Resistance any performance resistors shown in the table are
Temperature Coefficient, for
for "-15" advantages.
systems,
(0)
RHOPOINT COMPONENTS
derating of ranges
Encapsulation:
High Temperature Silicone Conformal.
Fax:
+44
geophysical
e-mail: sales@rhopointcomponents.com
.350
�½.040
.040
�½.002
many years of use in
AMBIENT TEMPERATURE,
°C
equipment that demands the highest
UK & Ireland
Distributors
© 2004 Caddock Electronics, Inc.
1.0
4,000
Type 1
MG710
Max.
Overload
Model Watt-
Type MG Precision High Voltage Resistors
®
Page 2 of 2
Type MG Precision High Voltage Resistors
Page of 2
Page 1
1
of 2
Page
2
Page 1 of
1 of 2
Page 1 of 2
process to provide for stable resistor performance
1
even
Page
2 of
2
2
Page
of
N
Specifications:
Type MG Precision High Voltage Resistors
Type MG Precision High Voltage Resistors
CADDOCK
Ordering Information
model numberover
Resistance Range
Load
that
of flux fields (Example: MG750-15). of Note resistor. This
the entire length
the
Life,
�½R
overload
CADDOCK
CADDOCK
800
�½
50 Meg
N/A
Resistance
N/A
750
Dielect.
(19.05
�½.76)
(2.39
�½.38)
(.64
�½.05)
.094
�½.015
.025
�½.002
1.000
�½.040
Dimensions in inches
�½.38)
(millimeters)
(25.40
�½1.02)
(2.39
and
(.64
�½.05)
Resistance
Specifications:
Range
Temperature Coefficient:
28_IL110.1004
TC Specifications
RHOPOINT [ RHOPOINT COMPONENTS ]
