RHOPOINT CC2520FC

Now with Extended Resistance Range to 10,000 Megohms and Additional Models
Page 2 of 2
Temperature Coefficient as tight as 80 ppm/°C, Combined with Excellent Long-Term Stability and Precision Tolerances.
Type CC
Low
Precision
Chip
Resistors
Type
MGResistance
Precision High
Voltage
Resistors
Type
CC
Low
Resistance
Precision
Chip
Resistors
Type
CC
Resistance
Precision
Chip
Resistors
Type
MG Precision
Precision
High
Voltage
Resistors
Type
CC MG
Low
Resistance
Precision
Resistors
Type
High
VoltageChip
Resistors
Type MG Precision High Voltage Resistors
Caddock's Micronox® resistance films are the source of
Preconditioning for Power and Voltage Ratings
the Type MG Precision High Voltage Resistors' outstanding
All power ratings and maximum operating voltage ratings
are for continuous duty. These ratings are based
on11of
precombination of performance features:
Page
of 2
2
Page
stress voltage levels applied during the manufacturing
• Single-resistor values as high as 10,000 Megohms.
PagePage
1 of 1
2 of 2
Page
1 of 2
process to provide for stable resistor performance
even
Page
• Maximum continuous operating voltages as high as
Page1 2ofof22
under
momentary
overload
conditions.
•48,000
Style FC
Flip
Chip
version
for surface
mount applications.
with
Extended
Resistance
Range to 10,000 Megohms and Additional Models
volts- Now
("-15"
ratings).
Maximum
operating voltages 60% higher than the values
•Style
Style
FC--with
-capabilities
FlipChip
Chip
version
surface
applications.
FC
Flip
version
for
surface
mount
applications.
WB
Wire
Bond
version
hybrid
applications
withto
metallized
back
• ••Overvoltage
of
150%
of
standard
working
Now
Extended
Resistance
Range
10,000
Megohms
and Additional
Models
Temperature
Coefficient
asfor
tight
asmount
80
ppm/°C,
Combined
with Excellent
Long-Term
Tolerances.
listed
in the table
may beStability,
specifiedand
by Precision
adding "-15"
to the
Style
FC
-- Flip
Chip
version
for
surface
mount
applications.
Style
WB
Wire
Bond
version
for
hybrid
applications
with
metallized
back
Style
WB
Wire
Bond
version
hybrid
applications
with
metallized
back
surface
for
solder
down
heat
sinking
of
the
chip,
includes
bondable
termination
voltages
for
all
models
and
values,
(except
"-15"
ratings).
Page 1 of 2
Temperature
Coefficient
as
tight
as
80
ppm/°C,
Combined
with
Excellent
Long-Term
Stability
and
Precision
Tolerances.
model
number
(Example:
MG750-15).
Note
that
overload
Style
WB
Wire
Bond
version
for
hybrid
applications
with
metallized
back
surface
for
solder
down
heat
sinking
of
the
chip,
includes
bondable
termination
surface
for
solder
down
heat
sinking
offilms
the are
chip,
bondable
termination
pads to Caddock's
receive
aluminum
wire
bonds.
Micronox®
resistance
theincludes
source of
the
Preconditioning for Power and Voltage Ratings
• Resistance
Tolerances
from
±1.0%
to ±0.1%.
andtermination
overvoltage
ratingsand
domaximum
not apply
to the voltage
"-15" resistors.
MG
650 Type
surface
solder
down
heat
sinking
of the
chip,
includes
pads
receive
aluminum
wire
bonds.
MG
Precision
High
Voltage
Resistors'
outstanding
All power ratings
operating
ratings are
Caddock's
Micronox
resistance
films
are
therange,
source
ofbondable
Preconditioning
forfor
Power
and
Voltage
Ratings
pads
totofor
receive
aluminum
wire
bonds.
Thermal
resistance
is®provided
to
optimize
high
power
designs
when
utilizing
• •Temperature
Coefficient,
for
standard
resistance
of
Resistance
ranges
"-15"
resistors
shown
in
the
are
combination
of
performance
features:
for
continuous
duty.
These
ratings
are
based
on table
pre-stress
pads
to
receive
aluminum
wire
bonds.
MG
655
Now
with
Extended
Resistance
Range
to
10,000
Megohms
and
Additional
Models
the
Type
MG
Precision
High
Voltage
Resistors'
outstanding
All
power
ratings
and
maximum
operating
voltage
ratings
•
Thermal
resistance
is
provided
to
optimize
high
power
designs
when
utilizing
ppm/°C
in combination
with
resistance
tolerances
as designs
•80
Thermal
resistance
is provided
to optimize
high power
utilizing
higher
thermal
conductivity
circuit
board substrates
such
as IMSwhen
or Alumina.
from
"-15 Min."
to "Standard
Max."the manufacturing process
voltage
levels
applied
during
to
•
Single-resistor
values
as
high
as
10,000
Megohms.
are
for
continuous
duty.
These
ratings
are
based
on
precombination
of
performance
features:
higher
thermal
conductivity
circuit
board
substrates
such
as IMS
oror
Alumina.
•tight
Thermal
resistance
is provided
toas
optimize
high power
designs
when
utilizingfor
MG
660
as ±0.1%.
Temperature
Coefficient
tight
80atppm/°C,
Combined
with
Excellent
Long-Term
Stability
and Precision
Tolerances.
higher
thermal
conductivity
circuit
board
substrates
such
Alumina.
provide
stable
resistor
performance
even under
momentary
Non-Inductive
Performance
• Resistance
range
down as
tooperating
0.010
ohm
±5%,
0.050
ohmas
at IMS
±2%,
stress
voltage
levels
applied
during
the
manufacturing
•
Maximum
continuous
voltages
as
high
as
higher
thermal
conductivity
circuit
board
substrates
such
as
IMS
or
Alumina.
• •Single-resistor
values
as
high
as 10,000
•Resistance
Resistance
range
down
to 0.010
0.010
ohm
atMegohms.
±5%,
0.050
ohm
atat±2%,
MG
680MG resistors
Type
have
stability
of
0.01%
overloadmodels
conditions.
Most
manufactured
with Caddock's
® demonstrated
range
down
to
ohm
±5%,
ohmof
±2%,
and
0.10
ohm
at ±1%.
Caddock's
Micronox
resistance
filmsatas
are
the0.050
Preconditioning
for are
Power
and resistor
Voltage
Ratings
process
to provide
for stable
performance
even
48,000
volts
Ratings).
Maximum
operating
voltages
60%
higher
than the
values
•the
continuous
operating
voltages
high
assource
per
1,000
hours
in
extended
load
life
testing
of standard
and
0.10
ohm
at ("-15"
±1%.
MG
710
•Maximum
Resistance
range
down
to
0.010
ohm
at
±5%,
0.050
ohm
at
±2%,
Non-Inductive
Design
which
uses
a
serpentine
resistive
and
0.10
ohm
at
±1%.
Type
MG
Precision
High
Voltage
Resistors'
outstanding
All
power
ratings
and
maximum
operating
voltage
ratings
under
momentary
overload
conditions.
•48,000
Low
inductance
provides
excellent
high
frequency
and
pulse
response
•
Overvoltage
capabilities
of
150%
of
standard
working
listed
in
the
table
may
be
specified
by
adding
"-15"
to
the
model
volts
("-15"
ratings). excellent high frequency and pulse response
resistance
range
values.
pattern
that
provides
for
neighboring
lines
to
carry
current
in
•
Low
inductance
provides
and
0.10
ohm
at
±1%.
MG
712 inductance
are Maximum
for continuous
duty.voltages
These60%
ratings
are
based
preof performance
features:
operating
higher
than
theon
values
voltages
forprovides
all models
and values,
(except
"-15" ratings).
number
(Example:
MG750-15).
Note
that
overload
and
••Overvoltage
Low
excellent
high
frequency
and
pulse response
High
pulse
handling
and
overload
capability.
•combination
capabilities
of
150%
of
standard
working
This
exceptional
performance
has
been
proven
through
opposite
directions,
thereby
achieving
maximum
cancellation
stress
voltage
levels
applied
during
the
manufacturing
•
High
pulse
handling
and
overload
capability.
listed
in
the
table
may
be
specified
by
adding
"-15"
to
the
Low •inductance
provides
excellent
hightoMegohms.
frequency
and pulse response
overvoltage ratings do not apply to the "-15" resistors.
• •••voltages
Single-resistor
values
as
high
as ±1.0%
10,000
Resistance
Tolerances
from
±0.1%.
forofall
models
and
values,
(except
"-15" the
ratings).
MG
714
High
pulse
handling
and
overload
capability.
many
years
use
in equipment
that
demands
highest
of
flux
fields
over
the
entire
length
of Note
the
resistor.
This
Best
choice
for
switching
power
supplies,
motor
speed
controls,and
andhigh
high
process
to provide
for "-15"
stable
resistor
performance
even
Resistance
ranges
for
resistors
shown
in the
table
are
from
model
number
(Example:
MG750-15).
that
overload
•High
Best
choice
for switching
power
supplies,
motor
speed
controls,
•• ••Resistance
Maximum
continuous
operating
voltages
as
high
as
pulse
handling
and
overload
capability.
•
Temperature
Coefficient,
for
standard
resistance
range,
of
reliability
and
stability,
including
TWT
amplifiers,
X-ray
efficient
non-inductive
construction
is to
accomplished
without
Tolerances
from
±1.0%
to
±0.1%.
"-15
Min."
to
"Standard
Max."
Best
choice
for
switching
power
supplies,
motor
speed
controls,
and
high
current
sensing
applications.
under
momentary
overload
conditions.
and
overvoltage
ratings
do
not
apply
the
"-15"
resistors.
MGcurrent
715 80
sensing
applications.
48,000
volts
("-15"
ratings).
in
combination
with
resistance
tolerances
as
ppm/°C
geophysical
instruments,
and
medical
electronics.
derating
performance
advantages.
•Temperature
Best
choice
for switching
supplies,
motor
speedofcontrols, Resistance
andMaximum
high of any
•systems,
Coefficient,
forpower
standard
resistance
range,
operating
voltages
60% shown
higher in
than
values
ranges
for "-15"
resistors
thethe
table
are
current
sensing
applications.
tight
as ±0.1%.
• 80
Overvoltage
of with
150%
of standard
workingas
Performance
MG
716
current
sensing
applications.
ppm/°C
incapabilities
combination
resistance
tolerances
listedNon-Inductive
in the
table
may be specified
by adding "-15" to the
from
"-15
Min."
to
"Standard
Max."
voltages
for
all
models
and
values,
(except
"-15"
ratings).
• Typical
life stability
of 0.02%
1,000
hours
Most
models
are
manufactured Note
with that
Caddock's
NonStyle
FC
--extended
Flip
Chip
Version
is aaper
surface
mount
version
with
pads
for
chip
soldering.
Resistance
Dimensions
in solderable
inches and
(millimeters)
Specifications:
Max.
Style
FC
Flip
Chip
Version
is
surface
mount
version
with
solderable
pads
for
flipflip
chip
soldering.
tight
as
model
number
(Example:
MG750-15).
overload
Overload
Model
Watt-±0.1%.
Dielect.
MG 720
Non-Inductive
Performance
Continuous
standard
resistance
range
as demonstrated
by
Inductive
Design
which
uses
a serpentine resistive pattern that
Extended
-15 is aStandard
FC
- Volt.
Flip
Chip
Version
surface
mount version
solderable
pads
flip
chip
soldering.
Rating
No.
agefor
Strength
A with
B
C for
Resistance
Tolerances
from
±1.0%
Non-inductive
performance
Min. to ±0.1%.
and
overvoltage
ratings
do
not
apply
to
the
"-15"
resistors.
•• Style
Type
MG
resistors
have
demonstrated
stability
of
0.01%
Oper.
Resistance
Tolerance:
Max.
Max.
Power
Capability
Information
Min.isCapability
Most
models
are
with
Caddock's
exclusive
reliability
testing.
provides
for for
neighboring
linesdesign
to carry with
currentCaddock's
in opposite
Power
Information
Style
FC
-Coefficient,
Flip
Chip
a surface
mountofversion with solderable
pads
flip
chipmanufactured
soldering.
MG 725
•MG650
Temperature
for Version
standard
resistance
range,
Resistance
ranges
forand
"-15"
resistors
in
the oftable
are
�.015 Dimensions
.094
per
1,000
hours
in Type
extended
loadApplications
life
testing
of
standard
.025
.313 �.020
�.002
Resistance
Resistance
Range
Tolerance
in inches
and
(millimeters)
Non-Inductive
Design
which
uses ashown
serpentine
resistive
directions,
thereby
achieving
maximum
cancellation
flux fields
Resistance
Capability
Information
Dimensions
in
inches
(millimeters)
High
Power
Applications
General
0.5 This600
� Power
5 Meg
N/A
750
N/A
1
Power
Applications
General200
Applications
exceptional
performance
hasHigh
been
proven
through
(2.39 �.38)
�.05)
(7.95 �.51)from
(.64
Comments
80
ppm/°C
in
combination
with
resistance
tolerances
as
Comments
"-15
Min."
to
"Standard
Max."
Thermal
Resistance
R
resistance
range
values.
Max.
Chip
Power
Rating
Power
Capability
Information
Thermal
Resistance
R
Max.
Chip
Power
Rating
θJC
over
the
entire
length
of
the
resistor.
This
efficient
non-inductive
pattern
that
provides
for
neighboring
lines
to
carry
current
Resistance
θJC
(millimeters)
Model
Standard
�1%, �0.5%, �0.25%, �0.1%in
High
Power
Applications
Applications
many
years of
use
inGeneral
equipment
thatFilm
demands
the
MGModel
717
.025 �.002 in inches and
.313 �.030 .109 �.025 Dimensions
Temperature
Film
(J)
toSolder
Solder
Pad
C N/A
at
Temperature
(J)
Pad
(C)(C) highest
70°�C
tight
as
±0.1%.
Type
1
0.5exceptional
600
750 Power
200
8 to
Meg
N/A
Comments
MG655
Resistance
construction
isinches
accomplished
of any
Thermal
Resistance
- RθJC
Max. �.76)
Chip
Dimensions
and (millimeters)
(2.77
Rating
This
performance
has
proven
through
Min.
Max.
Non-Inductive
Performance
A directions,
B in
C are
D maximum
Min.
Max.
opposite
thereby
achieving
cancellation
(7.95
(.64 �.05)
A�.64)
BMost
C
D without
High
Power
Applications
General
models
available
withderating
(see
note
(seeApplications
note
1) been
reliability
and
stability,
including
TWT
amplifiers,
X-ray
systems,
(see
note
2)2)
note
1)
Model
Temperature
Comments
St'd with "-15" rating
�1%
Film (J) to
Solder
Pad
C
at 70°
Thermal
Resistance
- R(C)
Max.
Chip .094
Power
Rating
•MG660
Type
MG
resistors
have
demonstrated
stability
of
0.01%
performance
advantages.
�.015
θJC
.025
.500
�.030
�.002
many
years
of
use
in
equipment
that
demands
the
highest
Most
models
are
manufactured
with
Caddock's
of
flux
fields
over
the
entire
length
of
the
resistor.
This
Model
Min.
Max.
A
B
C
D
.035
min.
.150
±.007
.120
±.007
.027
±.005
.
geophysical
instruments
and
medical
electronics
.150
±.007
.120
±.007
.027
±.005
.035
min.
Caddock's
Non-inductive Serpentine
Pattern
(see
note 2)
note
1 ΩΩ 750 (see
0.6
1,000
400
�C1) N/A Film10
Meg
N/A
Temperature
(J)
to Solder
Pad (C) (12.70
at
70°
Solder Solder
Coated
Pads Pads
Coated
22.7°C/Watt
0.010ΩΩ Type
0.015
Watt
150°C
22.7°C/Watt
0.010
0.015
0.75
Watt
150°C
�.38)
(2.39
�.76) (3.81
(.64
MG 721
±.18)
±.18)
±.13)
(0.89
min.)
(3.05�.05)
per
1,000and
hours
in extended
load
life
of
standard
(3.81
(3.05
(.69C±.13)Range
(0.89
Extended
�1% resistive
Min.
Max. including
A±.18)
B±.18) (.69
Dmin.)
reliability
stability,
TWT
amplifiers,
Non-Inductive
Design
which
uses
a
serpentine
CC1512FC
efficient
non-inductive
construction
is
accomplished
without
(see
note 2) X-ray
(see note
1) testing
CC1512FC
.150
±.007
.120
±.007
.027
±.005
.035
min.
�.015
.094
±.007
±.007
±.003±.003 .035 min.
.120�.002
.750
�.030 .150
±.007 .025
±.007 .022 .022
.120
.035 min. Solderable
.150
Coated Pads
22.7°C/Watt
0.010
0.015
Watt
150°C
0.75
Watt
22.7°C/Watt
150°C
0.020Ω
10.0
Ω 750 0.75
resistance
range
Pads
600
� medical
0.8
2,000
20
Meg
N/A
N/A
MG680
Watt
22.7°C/Watt
150°C
0.020
ΩΩvalues.
10.0
Type
1 ΩΩ
(3.81
(3.05
(.69
±.18)
±.18)
±.13)
(0.89
min.)
Solderable
Pads
systems,
instruments,
and
electronics.
pattern
that
provides
for
neighboring
to Solder
carry
current
in
�.38)
(2.39
derating
of(millimeters)
any
performance
advantages.
.150
±.007
.120
±.007
±.005
.035 lines
min.
(3.81
(3.05
(.56 .027
±.18)
±.18)
±.08)
(0.89
min.)
(19.05
(.64
�.76)
�.05)
CC1512FCgeophysical
Specifications:
(3.81
(3.05
(.56
±.18)
±.18)Temperature
±.08)
(0.89
min.)
Coefficient:
Solder Coated Pads
Resistance
22.7°C/Watt
0.010 Ω
0.015 Ω
0.75 Watt
150°C
Dimensions
in inches
and
Max.
±.007
±.007
±.003
.120
.022
.035 min.
.150
(3.81
(3.05
(.69 ±.003
±.18)
±.18)thereby
±.13)
(0.89
min.)
Model
Watt-Ω Continuous
Dielect.0.75has
MG
730
.200
±.007
±.007
±.003
.150
.027
.050
min.
This
exceptional
performance
been
proven
through
Watt
22.7°C/Watt
150°C
0.020
10.0
Ω
.094
�.015
CC1512FC
.200
±.007
±.007
.150
.027
.050
min.
opposite
directions,
achieving
maximum
cancellation
Solderable
Pads
.025C�.002
1.000
�.040
CC2015FC
Solderable
Pads
1.0
Watt
16.0°C/Watt
0.020
10.0
150°C
Resistance
Tolerance:
Standard
Extended
CC2015FC
-15
(3.81
(3.05
(.56
±.18)
±.18)
±.08)
(0.89
min.)
Solderable
Pads
1.0
Watt
16.0°C/Watt
150°C
0.020
10.0
ΩΩ Strength
age ΩΩOper.
A
B
1.0 No. 4,000
750
800
�
50
Meg
N/A
N/A
Type
1
MG710
±.007
±.007
±.003
.120
.022
.035
min.
.150
(5.08
(3.81
(.69
±.18)
±.18)
±.08)
(1.27
min.)
Min.
�.38)
(2.39
(5.08
(3.81 ±.18) Resistance
(.69 ±.08)
±.18) (.64 �.05)
(1.27 min.)
Volt.
�1.02)
(25.40
0.75that
Watt demands
22.7°C/Watt
150°C
0.020
Ω in10.0
Ω
Max.
Max.
Solderable
Pads This
Min.
many
years of
use
equipment
the highest
Specifications
ofinches
flux
fields
over
the
entire
length
of TC
the
resistor.
Resistance
(3.81
(3.05
(.56
±.18)
±.18)Specifications:
±.08) .065
(0.89
min.)
.200
±.007
±.007
±.003
.150
.027
.050 min.
min.
Dimensions
in
and
(millimeters)
.250
±.007
±.007
±.005
.200.200
.032Range
min.
Max.
CC2015FC
Solderable
±.007
±.007
±.005
.250
.032
.065
1.0 Watts
Watt
16.0°C/Watt
150°C
0.020
ΩΩOverload
10.0
Tolerance
Solder Solder
Coated
Pads Pads
1.5
13.0°C/Watt
0.010Ω
0.020ΩΩΩDielect. 1.5
150°C
Model
Watt- Continuous
±.015
.094
�.030
.140
±.002
.025
.313
±.020 (6.35
.400
�.060
.025
Coated
Pads
Watts
13.0°C/Watt
150°C
0.010
0.020
(5.08
(3.81
(.69 ±.003
±.18)
±.18) Resistance
±.08) Range
(1.27
min.)
(5.08�.002
(.81construction
±.18)
±.18)
±.13)
(1.66 (1.66
min.)
.200
±.007
±.007
.150
.027
.050
min.
.5
600
750
200
Ω
5
Meg
N/A
N/A
MG
650
Type
2
0.6
1,000
750
800
�
20
Meg
N/A
N/A
reliability
and
stability,
including
TWT
amplifiers,
X-ray
MG712
Standard
Extended
efficient
non-inductive
is
accomplished
without
-15
(6.35
(5.08
(.81
±.18)
±.18)
±.13)
min.)
CC2520FC
(2.39
±.38)
Rating
No.
A150°C
B�.76)
C ±.05)
MG
735age Oper.
CC2015FC
Solderable Pads
(.64
(7.95
±.51) (3.56
Watt
16.0°C/Watt
0.020
10.0 Ω Strength 1.0
Min.
�.152)
(10.16
CC2520FC
Standard
and Tolerance:
Volt.Ω
±.007
±.007
±.005
.200
.032
.065 ppm/�C
min.
.250.250
±.007
±.007
±.004
.200�.05)
.041 .041
.040 (1.27
min.
Standard
±1%,Solderable
±0.5%,
±0.25%,
±0.1%
(5.08
(3.81
(.69
±.18) (.64
±.18)Resistance
±.08)
min.)
Max.
Max.
Min.
Solder
Coated
Pads
�80
from
-15�C
to
+105�C,
1.5 and
Watts medical
13.0°C/Watt
150°C
0.010
ΩΩ 0.020
Ω
.250
±.007
±.007
±.004
.200
.040
min.
Watts
11.5°C/Watt
10.0
150°C
Pads
0.025
systems,
geophysical
instruments,
electronics.
±.025
.109
derating
of
any
performance
advantages.
±.002
.025
.313
±.030
�.030
.150
(6.35
(5.08
(.81
±.18)
±.18)
±.13)
(1.66
min.)
1.5
Watts
11.5°C/Watt
150°C
10.0
Ω
Solderable
Pads
(6.35
(5.08
(1.04
±.18)
±.18)
±.10)
(1.02
min.)
St'd
with
"-15"
0.025
Ω
.562
�.060
�.002
.032
±.007
±.007
±.005
.250
.200
.032
.065
min.
.5
600
750
200
Ω
8
Meg
N/A
N/A
MG
655
�.015
CC2520FC
(6.35
(5.08 ±.18)
(1.04 ±.10)
±.18) .025 �.002
(1.02 min.)
.313 �.020 .094
Type MG Precision High Voltage Resistors
N
1.0
1,000
750 1.5
200Watts
� 6.5
20
Meg
N/A
Meg
MG714 0.5
Type
referenced to +25�C.
±.64) (.81
(2.77�.76)
Solder
Coated Pads
Range
Tolerance
150°C
0.010
0.020
(.64�.05)
±.05)±.007 Resistance
(7.95
±.76) (3.81
with±.004
"-15"
rating
±1%
600 Ω Type
200
�
5 13.0°C/Watt
Meg
N/A
N/A
12 Ω 750
MG650
�1.52)
(14.27
.250
±.007
.200
.041
.040 min.
(6.35
(5.08
(.81
±.18) (.64
±.18) St'drating
±.13)
(1.66
min.)
�.38)
�.51) (2.39
�.05)
(7.95
CC2520FC
1.5 Watts
11.5°C/Watt
150°C
10.0 Ω
Solderable Pads
0.025 Ω
MG
745
±.015
.094
±.002
.025�.002
.500
±.030 .140
(6.35
(5.08
(1.04
±.18) .025
±.18) Extended
±.10)Range
(1.02
min.)
�.030
.250
±.007
±.007
±.004
.200
.041
.040
min.
.750
�.060
±1%
.6
1,000
750
400
Ω
10
Meg
N/A
N/A
MG
660
CC1512FC
Standard
Resistance
Values:
Standard
�1%,
�0.5%,
�0.25%,
�0.1%
�.025
.109
(2.39
±.38)
.025
.313
�.030
�.002
Resistance
150°C
10.0
1.0
2,000
750 1.5
400Watts
� 26
50
Meg
N/A
Meg
MG715 0.5
Type
0.025
Dimensions
in inches
and
(millimeters)
(.64�.05)
±.05)±.18)
(12.70
±.76)
�80 ppm/�C
fromSolderable
+25�C Values:
toPads
+105�C,
Max.
CC1512FC
Resistance
�.76)
(3.56
Type
12 Ω Dielect.
600 Ω Overload
750
�
8 11.5°C/Watt
Meg
N/A
N/A
MG655
(19.05
�1.52)
(.64
(6.35
(5.08
(1.04 ±.10)Standard
±.18)
(1.02
min.)
Extended
Model
WattStyle
FCContinuous
Derating
Curve
For200
General
Application
(2.77
�.64)
�.76)
�.05)
(7.95
Tolerance
CC1512FC
±1%
Standard
(except
asppm/�C
noted). from
-200
ppm/�C
to +50
±.015 (.64
.094
Temperature
Coefficient:
Extended
±.002
.025
.750
±.030 .140
-15N/A Standard
Rating
No.
age
Strength
A
B
C
Tolerance
CC1512FC
±1%
Standard
(except
as
noted).
St'd
with
"-15"
rating
�1%
�.030
Min.
Range
.8
2,000
750
600
20
Meg
N/A
Ω
MG 680
�.002
1.000
CC1512FC
Standard
Values:
Oper.
Volt. Type 2
Resistance
Tolerance:
(2.39�.015
±.38) .025
.094
±.05)
(.64�.002
±.76) (3.56
(19.05
3.30
Ω
Max.
Max.
+25�C.
.500 �.060
�.030
Min.
600 �
� 70
1.5
4,000
750
75 Meg
Meg
N/A
Meg
MG716
0.010
Ω
5% 0.033 Ω
5% -15�C
ΩResistance
0.20to
0.75 Ω
MG 731 0.6
�.76) .025
Type 1
1,000
750
400
10
N/A
N/A
MG660
�.05)
(.64�.05)
�1.52)
(25.40
Resistance
Ω
5%
0.010
0.033
0.75 Ω4.00
�.38)
(2.39
CC1512FC
Standard
Resistance
Values:
�.76)
(12.70
(.64
Tolerance
CC1512FC
±1%
(except
as
noted).
Ω 3.30 Ω
.094
±.015 .025
0.015
Ω Resistance
5%
0.040
Ω
5%Ω 5%
0.25Standard
Ω0.20
Ω�1%
�.015
.094
TCΩ1.00
Specifications
.025�.002
±.002
±.040
Extended
Range
.313
�.020
Note
1:N/A
General
Applications
-1.000
The
power
rating
100 0.5
Range
Tolerance
1.0
4,000
750 200800
Ω N/A
50
Meg
N/A
MG 710 600
Range
�.030
.240
�
5
Meg
N/A
750
Type
1
MG650
Ω
0.015
Ω
5%
0.040
Ω
5%
0.25
Ω
1.00
Ω
.040
.710
�.050
�.002
±.38)
(2.39
5.00
Ω 4.00
(2.39
�.38)
(.64�.002
±.05)
±1.02)
(25.40
Resistance:
Megohms,
min.
0.020
ΩInsulation
5%
0.050
Ω
2%Ω 5%
0.30Standard
Ω0.2010,000
1.50(except
Ω0.75
Note
1:
General
Applications
- The
power
rating
100 1.5
.094 �.015
Tolerance
CC1512FC
±1%
as
noted).
�.51)
�.05)
(7.95
(.64
.750
�.030
.025
3.30 Ω
2,000
750
600
�
75
Meg
225
M
17
Meg
Type
2
MG717
Ω
5%
0.010
0.033
Ω
Ω
�.76)
(6.10
applications
is based
upon
0.5(2.39
sq.�.38)
in. (1.02
2,000
750
20 Meg
N/A
600for
� general
N/A
MG68080 0.8
Type 1
�1.27)
�.05)
(18.03
5.00 Ω
0.020
Ω 5%
Ω 2%0.33�1%,
Ω
Ω7.50 Ω�0.1%
0.025
Ω 5%
0.0750.050
Ω 2%
Ω0.30
2.00 Ω1.50
Standard
and
±.030
.140
(19.05
(.64
�.76)
Standard
�0.5%,
�0.25%,
±.002
.025�.05)
.400
±.060power
4.00
Ω
�.025
.109
0.015
Ω 5%
0.040
Ω 5%
0.25
Ω
1.00
Ωrated
3.30
Temperature
Coefficient:
.025
.313
�.030
�.002
for
general
applications
is
based
upon
0.5
sq.
in.
0.010
0.033
0.20
0.75
±80
ppm/°C
from
-15°C
to
+105°C,
Note
1:
General
Applications
The
rating
100
2
.6
1,000
750
800
Ω
20
Meg
N/A
N/A
MG
712
Overload/Overvoltage:
5
times
power
80
Type 1
0.025
Ω 5%
0.075
Ω 2%0.40 Ω0.33 Ω
2.00 Ω8.00 Ω 7.50 Ω
.140
�.030
600
750
200(300
�
8 Meg
N/A pad or
N/A ) of termination
MG655
±.76)
(3.56
MG
740 0.5
trace
area
(2
oz.
mm
�.002
.025
1.500
�.080
0.030
Ω
5%
0.10
Ω
2.50
Ω
St'd
with
"-15"
(.64
±.05)
(10.16
±.152)
(2.77
�.64)
.094
�.015
5.00
(7.95
(.64 �.002
�.76) power
�.05) 0.020
Ω 5% 0.050
Ω 2%
0.30 Ωto +25°C.
1.50
Ω
4.00 Ω
1.000
�.040
Type 12
2.0
6,000
750
1K
150
MegApplications
N/A pad(38.10
N/A
MG720
2
0.015
0.040
1.00
referenced
60 1.0
�.76)
(3.56
Note
1: General
- trace
The
rating
100
Ω
4,000
750
800
� general
50termination
Meg
N/A
N/A
(300
mm
) of
or
area
(2
oz.
Type
MG710
(.64
�.05)
�2.03)
0.030
Ω applied
5%
0.10
Ω 5%
0.40
Ω
2.501.5
Ω10.0 Ω 8.00max0.15
Ω voltage
0.50
3.00 Ω�1%
for
applications
is based
upon
0.5
sq.
in..025
with
notΩ0.25
to exceed
rating
St'd
"-15"
rating
±.030
.150
�.38)
(2.39
Resistance
±.002 0.025
.032�.05)
.562
±.060
�1.02)
(25.40
(.64
7.50 Ω
copper)
to each
of
the
resistor.
80
Ω with
5%
0.075
0.33
Ω
2.00
Ω times
5.00
�.015
.094
0.020
0.050ΩΩ 2%
0.30
1.50
60 0.6
.025
.500
�.030
�.002
TC Specifications
1.0
1,000
20
Meg
N/A end
6.5 connected
Meg
MG 714 1,000
10.0 Ω
0.15
0.50
Ω
3.00for
Ω 5 seconds.
(3.81
±.76)
2 applications
Type
1
.240
�.030
750750 400200
� Ωgeneral
10termination
Meg
N/A
N/A
(.81�.002
±.05) 0.030
±1.52)
(14.27
MG660
for
is
based
upon
0.5
sq.
in.
.040
1.000
�.050
Range
copper)
connected
to
each
end
of
the
resistor.
imum
continuous
operating
voltage
8.00
Ω
�.38)
(2.39
(300
mm
)
of
pad
or
trace
area
(2
oz.
Ω
5%
0.10
Ω
0.40
Ω
2.50
Ω
40
�.030
.140
7.50
�.76)
�.05)
(12.70
(.64
80
0.025
0.075
Ω
2%
0.33
2.00
±80
ppm/°C
from
+25°C
to
+105°C,
.400
�.060
�.002
.025
2.0
4,000
750
200Maximum
� 51
100 temperature
Meg
300
Meg chip
MG721 0.6
Use(6.10
Derating
150°C.
Type 22
Extended
Range Resistance �1%
�.76)
Type
1,000
750
800
�
Meg
N/AM is (10.16
N/A
MG712
�.05)
(25.40
�1.27)
Extended
CC2015FC
Standard
Values:
2
60
±.030
.140�.76)
±.002
.025�.05)
.750
±.060Use
(3.56
10.0
Ω
40
0.15
0.50 Ω to +50
3.00
�.152)
(.64
8.00
(300
)chip
of20termination
or
trace
area
(2
oz.(1.02
0.030
Ω 5%
0.10
Ω -200 ppm/°C
0.40
2.50
Ω
ppm/°C
from
.094
�.015
Derating
Maximum
isfor
150°C.
Type
1: DC
Voltage
Standard
and
1.0
2,000
750
400
Ω mm
50temperature
Megto each
N/Apad
26
MG 715
.750
�.030
�.002
.025
copper)
connected
end
of
the
resistor.
MG
750
(3.56
±.76)
toMeg
derate
appropriately
the
maximum
Range
(.64
±.05)
(19.05
±1.52)
CC2015FC
Standard
Resistance
Values:
.140
�.030
�80
ppm/�C
from
-15�C
to
+105�C,
Tolerance
CC2015FC
±1%
Standard
(except
as
noted).
600Curve
�
2,000
750
20 Meg
N/A
N/A
MG680
Type 1
60
20 0.8
�.002
.025
2.000
�.080
10.0 Ω
(2.39
�.38) .032
-15°C to
+25°C.
0.15 ΩCoefficient:
0.50
Ω
3.00 Ω
.150 �.030
(19.05
(.64 �.002
�.76)
�.05)
St'd with
"-15"
.562
2.5
750
1.5Maximum
K 6.5N/A
200
Meg
10,000
N/A
MG725
Type 22
Temperature
copper)
connected
toand
each
end
of�.060
themaximum
resistor.
40
Curve
totemperature
derate
appropriately
for
the
Type
2:
DC
Voltage
or
V
AC
�.76)
(3.56
.140
±.030 (.64
Use
Derating
chip
temperature
is
150°C.
750
200
�
20 Meg
N/A
Meg
MG714
Type
�.05)
�2.03)
(50.80
referenced
to
+25�C.
Tolerance
CC2015FC
±1%
Standard
(except
as
noted).
±.002
.025
1.000
±.060
ambient
for
the
temperature
rms
20 1.0MG 7161,000
(3.81
�.76)
0.033 Ω
Ω 5%rating
5%
0.020
0.20 ΩResistance
0.75 Ω
Ω
3.30
�1.52)
(14.27
(.81 �.05)
CC2015FC
Standard
Values:
1.5
4,000
750
600 Ω 70 Meg
75 Meg
N/A
.094
�.015
1.000
�.040
±.76) .025
(3.56
40 0 1.0
(.64�.002
±.05)
(25.40
±1.52)
Resistance:
10,000
Megohms,
min.
Use
Derating
chip
temperature
150°C.
.240
�.030
4,000
750
800Maximum
�
50
N/A
N/Ato temperature
Type 1
MG710
ambient
and
foris(25.40
the
temperature
0.025
0.040
ΩInsulation
5%
Ω
5%Ω 5%
0.25Standard
Ω
Ω0.75
4.00
Ω 3.30
�.002
.040
1.500
�.080
Curve
appropriately
for
the
maximum
of
theMeg
adjacent
0.033
0.020
Ω 5%
Ω1.00(except
0.20
Ωas
�.38)
(2.39
Resistance
CC2015FC
Standard
Resistance
Values:
.140
�1.02)
(.64 �.002
�.05)
Tolerance
CC2015FC
±1%
noted).
Resistance
Range
Overload/Overvoltage,
�RΩ
.025
.750
20
3.0 25 2,000
1,000
500limitations
250
Meg
� 26
M materials.
6,000 70 Type
750
77 Meg
Meg derate
MG730
150 400
Type100
±.030 (1.02
.240�.030
TC from
Specifications
�.76)
(6.10
0780 1.0
.710�.060
±.050
.040�.05)
±.002
750750
�
5075
Meg
N/A
MG715
22
(38.10
�2.03)
�80
ppm/�C
+25�C
to
+105�C,
0.030
0.050
Ω
5%
Ω
2%
0.30
Ω
1.50
Ω
5.00
Ω 4.00 Ωwith
MG
�.76)
(3.56
0.025
0.040
Ω
5%
Ω
5%
0.25
Ω
1.00
Ω
Curve
to
derate
appropriately
for
the
maximum
1.5
2,000
600
Ω
Meg
225
M
Range
17
Meg
MG
717
Overload/Overvoltage:
5
times
rated
power
(19.05
�1.52)
�.05)
(.64
limitations
of the adjacent
materials.
Extended
CC2015FC
±1%
Standard
(except
as
noted).
o 150
ambient
temperature
and
for
the
temperature
±.76) .025
(6.10�.030
20
.400
�.060
±1.27) .140
(18.03
±.05) Tolerance
(1.02�.002
25
70
100
0.033
Ω
5%
Ω
5%
0.020
Ω
0.20
Ω
0.75
Ω
3.30
AMBIENT
TEMPERATURE,
C
0.0750.050
Ω 2%Ω-200
0.33
Ω0.30 Ω
2.00
Ω1.50
7.50
Ωfrom
ppm/�C
to
+50
ppm/�C
Standard
0.5%
max.
�.030 .040 �.002 0.030 Ω 5%
.315�.030
Type 2
0.6
1,000
750
800 �
20 Meg
N/A
N/A
MG712
1.000 �.060
�.060 (3.56
2%
Ω times
5.00 Ω
0 2.6
.140
applied
voltage
not
to
exceed
1.5
max�.152)
�.05)
(.64
.025
1.000
40 Meg
Megtemperature
4,000
1,000
200ambient
� 70
150
Megadjacent
750
M for (10.16
Type 22
and
the
temperature
MG731
.140�.76)
±.030 (1.02
Standard
and
o
0.040
ΩRange
5%
0.25
4.00 Ω
±.002 0.025
.025�.002
1.500
±.080 (8.00
0.033
0.020
Ω
5%
Ω
Ω
0.75
the
�.76)
0.10
Ω
0.40
2.50 -15�C
Ω1.00
8.00
Ω 3.30
-15�C
toΩ0.20
+25�C.
�
750
Meg
MG716
(25.40
�1.52)
�.05)
AMBIENT
TEMPERATURE,
C150
0.075
Ω
2%
0.33
Ω
2.00
Ω
7.50
Ω 1 of 2
2.0
6,000
750 600limitations
1
K
150
Meg N/AN/A materials.
257204,000
70 Type
100
�80
ppm/�C
from
to
+105�C,
N/A of75
�.76)
(3.56
Page
�.05)
(.64
�1.52)
(25.40
0 1.5MG
(3.56
±.76)
(.64 ±.05) 0.030
(38.10
±2.03) .150 �.030 .032
St'd
"-15"
imum
continuous
operating
for
seconds.
St'd
with
0.050
Ωwith
5%
Ω 2%
Ωvoltage
1.50
Ω 5Ω 5.00
Ω
.562 �.060
0.025
0.040
5%
0.25
1.00
4.00
0.15
Ω rating
0.50 Ω0.30
ΩN/A
of20the
materials.
.240�.030
�.030 .040 �.002
1.0AMBIENT
1,000TEMPERATURE,
750
200limitations
�
Megadjacent
N/A the
6.5 Meg
MG714
Type
2
0.10
Ω referenced
0.40toΩ3.00
2.50 10.0
Ω
8.00 Ω
o In
+25�C.
�.002
2.000
�.080
25
70
100
150
Note
2:
Thermal
Resistance
High
Power
Applications
where
circuit
board
(3.81
�.76)
C
.240
�1.52)
�.05)
(14.27
(.81
.240
±.030
.040
.710
�.050
�.002
0.075
Ω 2%
0.33
Ω
2.00
Ω
7.50
Ω
3.6
10,000
1,000
750 �
� 178
Meg 1,000
Meg 300
MG735
Type 22
±.002 0.030
.040�.05)
1.000�2.03)
±.050 (6.10 �.76) (1.02
MG 785 1.5
0.050
Ωrating
5%
0.30
1.50
5.00 Ω
Insulation
Resistance:
10,000
Megohms,
min.
750
Meg
MMM (50.80
Meg
Type
MG717
2.0
Ω 17 51
Meg 225300
Meg 75
MG 7212,000
0.15
Ω
0.50
Ω 0.8%
3.00
Ω
10.0
Extended
Range
max.
o 750 600200
Resistance
Range
Overload/Overvoltage,
∆R
�.76)
(6.10
(6.10
±.76) (1.02
�1.27)
(18.03
(1.02�.05)
±.05)
(25.40
±1.27)
AMBIENT
TEMPERATURE,
C High
material
provides
high 4,000
heat sinking
benefits
(such
as 100
IMS,
Alumina,
or
other)
the
thermal
0.10
0.40
2.50
Ω
8.00
�.030
.140
Note
2: Thermal
Resistance
-750
In
Power
Applications
where
the
circuit
board
0.075ΩΩ 2%Resistance
0.33 Ω
2.00
7.50 Ω
CC2520FC
Standard
Values:
.025
.750
�.060
�.002
.315
�.030
2,000
400 � 26 Meg
50 Meg
N/A
MG715 1.0
Type 2
�80 ppm/�C
from
+25�C
to +105�C,
�.002
.040
1.500
�.060
Overload/Overvoltage:
5
times
rated
power
�.76)
(3.56
.140
±.030
.140
�.030
0.15
Ω
0.50
Ω
3.00
Ω
10.0
Ω
(19.05
�1.52)
�.05)
(.64
.025
±.002
2.000
±.080
0.10
0.40
2.50
8.00
�.002
.025
1.500
�.080
64
Meg
3.6
6,000
1,000
300
�
300
Meg
1,500
M
Type
2
MG740
Extended
Standard
0.5%
max.
resistance
of6,000
the
chipType
resistor
to
the
maximum
capability
ofthermal
the
Tolerance
CC2520FC
±1%
Standard
(except
asppm/�C
noted).
�.76)
(8.00
material
provides
high
heat
benefits
(such
as
IMS,
or
other)
the
2.5
10,000
750
1.5
Kestablish
200
Meg Alumina,
N/A
MG
725
Thermal
Shock:
Mil-Std-202,
Method
107,
2 sinking
750
1K
150
Meg
N/AN/Apower
N/A
MG720
�.05)
�1.52)
(38.10
Note
2:2.0Thermal
Resistance
-is
Inuseful
High
Power
Applications
where
the
circuit
board
Standard
Resistance
Values:
-200
ppm/�C
to +50
from
(3.56
±.76) (1.02
(3.56
(.64�.05)
±.05) CC2520FC
±2.03)
(50.80
(.64
�2.03)
(38.10
with
applied
voltage
not
to exceed
1.5
0.15
Ω
0.50
Ω
3.00
Ω times
10.0maxΩ
.140 �.76)
�.030 .025
Range
�.002
1.000
�.060 board
Ω
chip2:
resistor
in the
application.
The
film
temperature
isIMS,
measured
the
center
of(3.56
the
0.010
Ω
5% with
0.033
Ω 5%
Ω N/A 3.30
0.75(except
Note
Thermal
Resistance
-750
Inuseful
High
Power
Applications
where
the
circuit
0.20max.
Ω+25�C.
-15�C
to
.240
�.030
Type
2 sinking
600to
�
1.5
4,000
75
Meg
N/A atpower
70(such
Meg
MG716
St'd
"-15"
rating
Cond.
C,
ΔR
0.25%
resistance
of 15,000
the
chip
resistor
is
establish
the
maximum
capability
of
the.040
.040
�.002
3.000
�.100
.240
±.030
Tolerance
CC2520FC
±1%
Standard
as
noted).
material
provides
high
heat
benefits
as
Alumina,
or
other)
thermal
�.76)
MG 810
.040�.002
±.002 CC2520FC
1.500
±.080 the
.240
�.030
Standard
Resistance
Values:
�.05)
(.64
�1.52)
(25.40
1.000
�.050
5.0
1,000
1
K
500
Meg
1,500
M
288
Meg
MG745
Type
2
imum
continuous
operating
voltage
for
5
seconds.
3.0
250
Meg
6,000
1,000
500
Ω
750
M
77
Meg
MG
730
4.00
Ω
�.76)
(6.10
0.015 Ω 5% 0.040 Ω 5%
1.00 Ω
0.25 Ω
2.0provides
4,000 and
750
200 � 51(such
100
Meg Alumina,
300
Meg is as
MG721
�.05)
(1.02
�2.54)
(76.20
(6.10
±.76) (1.02
Type
2solder
(1.02�.05)
±.05)
±2.03)
(38.10
resistor
element
the
pad
temperature
measured
atMthepower
of the
�.76)
(6.10
material
high
heat
sinking
benefits
or
the
(25.40
�1.27)
Ω
chip
resistor
thechip
application.
film
temperature
isIMS,
measured
atcenter
the
center
of thermal
the
0.010
Ω 5%
0.033
Ω5.00
CC2520FC
Standard
Values:
0.20
Ω1.500.8%
Extended
Range
max.
�.030
.240
resistance
of inthe
resistor
isThe
useful
to
establish
the
maximum
capability
of
the.040
Moisture
Resistance:
Mil-Std-202,
Method
106,
.710other)
�.050
�.002
Tolerance
CC2520FC
±1%
(except
as
noted).
Ω 3.30 min.
0.020
Ω
5%
Ω
2%Ω 5%
Ω0.75
0.30Standard
ΩResistance
Insulation
Resistance:
10,000
Megohms,
Type
1:0.050
DC
Voltage
.315
�.030
1.5
2,000(pointType
600 � 17 Meg
75
Meg
225 M
2®the 750
MG717
.315�.030
±.030 (1.02
�.002
.040
2.125
�.060
1.000
±.060
±.002 for
.040�.002
�.76)
(6.10
Ω
termination
pad
X solder
in
recommended
circuit
layouts
shown
below).
Maximum
0.015
0.040
Ω 5%
Ω Voltage
5%
Ω7.50
.140
0.25 Ω
�1.27)
�.05)
(18.03
Caddock's
Micronox
resistance
films
are
the
source
of
Preconditioning
Power
and
Ratings
.025
2.000
�.080
5.0
1,000
400
500
Meg
2,500
�
M
10,000
128
Meg
MG750
2.6
4,000
1,000
200
Ω
150
Meg
750
Mthe
Type
2
40
Meg
resistance
of
the
chip
resistor
is
useful
to
establish
the
maximum
power
capability
of
the
MG
731
Ω 4.00
0.025
0.075
Ω
5%
Ω
2%
2.00(except
Ω1.00
0.33
Ω
resistor
element
and
the
pad
temperature
is
measured
at
center
of
the
Tolerance
CC2520FC
±1%
Standard
3.30 107,
Ω
chip
resistor
in
the
application.
The
film
temperature
is
measured
at
the
center
of
the
�.76)
(8.00
ΔR
0.4%
max.
(8.00
±.76)
0.010
Ω
5%
0.033
Ω
5%
0.75 Method
Ωas noted).
Ω
0.20
2.5
750
1.5
K
200
Meg
10,000
N/A
N/A
MG725
(25.40�1.52)
±1.52) (3.56 �.76)
±.05)
(1.02�.05)
(1.02
(53.98
Type 2
Thermal
Shock:
Mil-Std-202,
Type
2:
DC
Voltage
or
V
AC
5.00
Ω
Overload/Overvoltage:
5
times
rated
power
0.020
0.050
Ω
5%
Ω
2%
1.50
Ω
�.05)
(.64
�2.03)
(50.80
0.30
Ω
rms
8.00
Ω
.140
�.030
Ω 5%
Ω
0.030
0.10
Ω0.20
through
temperature
theapplication.
(atVoltage
the
center
of
chip)
not exceed
150°C
.025 �.002
1.500
�.080Maximum
4.00
Ω
the
MG
Precision
High
Resistors'
outstanding
All
power
ratings
and
maximum
operating
voltage
ratings
0.015
0.040
Ω 5%
Ω 5%0.40
Ω
3.30
0.25 Ω2.50 Ω1.00
chip
resistor
inof
the
The
film
isshould
measured
atbelow).
the
of
the
0.010
0.033
0.75
.240
±.030
termination
pad
(point
X resistor
in
recommended
circuit
layouts
shown
.315
�.030
Type
2 the
2.0
6,000
750
1 K temperature
Meg
N/A
N/A
MG720
.040�.002
±.002
2.000center
±.080
resistor
element
andchip
the
solder
pad
temperature
is150
measured
atM the
center
of the
MGType
815
.040
3.125
�.060
7.50
Ω
Cond.
C,
∆
0.25%
max.
0.025
0.075
Ω applied
5%
Ω 2%0.50
2.00
Ω10.0
�.76)
(3.56
Ω3.00
Load
Life:
1,000
hours
at Ω+125°C
rated
Ωat
.240
�.030
0.15
ΩR
3.6
10,000
1,000
300
Meg 3,750
1,000
M (38.10
(.64
�.05)
�2.03)
Meg
Ω0.33
�.002
.040
1.500
�.080
with
voltage
not
to exceed
1.5
Type
2
Meg
7.5MG 735
15,000
1,000
600750
� Ω192
750
Meg
MG780
5.00
Ω
±.76)continuous
(6.10
0.050
Ω 5%
Ω 2%
1.50
Ω times
4.00
0.30
Ω
(1.02
±.05) 0.020
±2.03)
(50.80
�.76)
(8.00
0.015
0.040
5%
1.00
Resistance
Range
Overload/Overvoltage,
�Rmax0.25
3.0
500
Meg
�
M the
6,000
750not
Meg
MG730
(79.38
�1.52)
�.05)
(1.02
. 77178
the temperature
range
Type
2the 1,000
are
for
duty.
These
ratings
are
based
on
precombination
of
performance
features:
8.00
Ω
resistor
element
and
the
solder
pad
temperature
is250
measured
at
center
of
the
�.76)
(6.10
Ω 5% not
Ωexceed
0.030
0.10
Ω
2.50
0.40
Ω
through
temperature
of
the
chip
resistor
(at the
center
of chip)
should
exceed
150°C
(1.02
�.05)
(38.10
�2.03)
termination
pad
(point
Xof
in
theapplication
recommended
circuit
layouts
shown
below).
Maximum
.240
�.030
voltage,
to
rated
power.
7.50
Ω
.040
�.002
1.000
�.050
0.025
0.075
Ω 5%
Ω operating
2%
2.00
ΩMethod
5.00
0.33
Ω
Moisture
Resistance:
Mil-Std-202,
106,
imum
continuous
voltage
for
5
seconds.
0.020
0.050
1.50
.315
±.030
0.30
±.002
.040
1.500
±.060
.315
�.030
2.0
4,000
750
200
�
100
Meg
300
M
51
Meg
MG721
10.0
Ω
Type
2
0.15
Ω
3.00
Ω
.040�.002
�.002
4.000 �.060
�.120Maximum
0.50the
Ω 0.5%manufacturing
3.6
6,000
1,000 800
300
Ω32064
300
Meg 5,000
1,500
M (25.40
Meg1,000
�.76)
(6.10
MG 740
stress
voltage
levels
applied
during
Custom
resistance
values
and
non-standard
tolerances
Standard
max.
.315
�.030
�.05)
(1.02
�1.27)
termination
pad
(point
X
in
the
recommended
circuit
layouts
shown
below).
1.000
.040
(8.00
±.76)
8.00
8.0
20,000
1,000
�
Meg
M
Meg
MG785
Type
2
Ω
5%
Ω
0.030
0.10
Ω
2.50
(1.02
±.05)
(38.10
±1.52)
7.50
Ω
0.40
Ω
through
temperature
of4,000
the
chip
(at the
center
ofMegohms.
chip)
should
150°C
the
temperature
range
ofresistor
0.075
Ω 2%
2.00
Single-resistor
values
as application
high
as
10,000
0.33
�.76) (1.02 �.05) 0.025
(8.00�.76)
∆Resistance
R
0.4%
2.6
1,000
200Layout
�. 40 Meg
150 Meg
750not
M exceed
Type
2the
MG731
(101.60
�3.05)
Type
1: DCmax.
Voltage
1 of 2
Recommended
Circuit
Board
(8.00
Range
Load
Life, �R Page
(25.40
�1.52)
�.05)
can 0.030
be
manufactured
high quantity
applications.
10.0
Ω
.140
�.030
0.15
Ωfor
3.00
8.00even
0.50
process
to
resistor
performance
�.002
.025
2.000
Ωwith
5%stable
0.10
2.50 Ω
.240
±.030 (1.02
0.40 Ω
through
temperature
of
the
chip
(at thevoltages
center
ofas
chip)
should
not exceed
150°C
.040provide
±.002 Custom
3.000�.080
±.100
St'dfor
"-15"
rating
N/A
.315
�.030
2.5
750
200
Meg
10,000
N/A
MG725
Type
2
the
temperature
range
ofresistor
the
application
.040
�.002
5.000
�.120
resistance
values
non-standard
tolerances
5.0
15,000
1,000 1.5
1K.K N/A
500
Meg
1,500 M (50.80
288 Meg
MG 745
Maximum
continuous
operating
high
as6,250
Type
2:
DC
Voltage
or and
V
AC
�.76)
(3.56
.240
�.030
Please
contact
Caddock
Applications
Engineering.
(6.10
±.76) .040
Load
Life:
1,000
hours
at0.5%
+125°C
at
rated
�.05)
(.64 �.002
�2.03)
2.000
�.080
10.0
Ω
(1.02
±.05)
(76.20
±2.54)
Type
2
400
Meg
10.0
25,000
1,000
1
K
1,250
Meg
M
MG810
Certain
products
shown
in
this
catalog
are
covered
by
one
or
more
patents,
there
are
also
patents
pending.
rms
(current
and
sense
connections):
0.15
Ω
3.00
Ω
0.50
Ω
�.76)
(8.00
Standard
max.
momentary
overload
conditions.
3.6
10,000
1,000
750 �. 178 Meg 300 Meg 1,000 M
MG735
�.05) can
(1.02�.05)
�3.05)under
(127.00
the
temperature
rangeType
of 2the application
(6.10
be manufactured
for and
high
quantity
applications.
�2.03)
(50.80
Extended
Range
0.8%
max.
48,000
volts
("-15"
ratings).
voltage,
not
to exceed
rated
power.
�.030
.315�.76)
±.030 (1.02
resistance
non-standard
tolerances
.040
1.500
�.080
±.002 Custom
.040�.002
2.125
±.060 .240
Resistance
Rangevalues
Overload/Overvoltage,
�R
5.0
10,000
1,000 500400
500
Meg 750
2,500
128
Meg 250
MG 750 6,000
1,000
Meg
� Ω 77
M M (38.10
Meg
MG730 3.0
Type
2
�.002
.040�.002
6.000
�.120
.350
�.040
Maximum
operating
voltages
60%
higher
than
the
values
±.76) (1.02
(8.00
�.76)
Please
contact
Applications
Engineering.
(1.02
±.05)
(53.98
±1.52) (6.10
.315
�.030
�.05)
�2.03)
St'd
with
"-15"Caddock
rating
0.8%
max.
.040
1.500
�.060
15.0
1,000
1 KC
Meg 10,000
M (152.40
MegC 2,000
MG815
Type 2recom2
Custom
resistance
values
and
non-standard
tolerances
can
be
manufactured
for
high
quantity
applications.
Fig.
Kelvin
layout
Overvoltage
capabilities
of
150%
of 384
standard
64 Meg
3.61A: 30,000
6,000
1,000
300
�
300 working
Meg
1,500
M
Type
MG740
�.05)
(1.02�.05)
�3.05) (8.00
Fig. 1B: Kelvin
layout
C C
(8.89 �.76)
�1.02)
C (1.02
Thermal
Shock:
Mil-Std-202,
Method
�1.52)
(38.10
Resistance
Range
Load
Life,
∆R
.315
±.030
Standard
0.5%
max.
.315 �.030
.040�.002
±.002 Please
3.125�.060
±.060
listed
in
the
table
may
be
specified
by
adding
"-15"
to107,
the
1.000
.040
B
can
be
manufactured
for
high
quantity
applications.
contact
Caddock
Applications
Engineering.
1.500
±
.125
A
7.5
15,000
1,000
600
Ω
750
Meg
3,750
M
192
Meg
MG
780
C
Range
0.8% max.
40 Meg 150
2.6 for
4,000
1,000values,
200 � (except
Meg recommended
750 M
Type
2 and
MG731
mended
for
values
below
0.20Ω
(8.00�.030
±.76) (1.02
voltages
all
models
"-15"
ratings).
for
higher
(1.02X
±.05)
(79.38
±1.52)
�.76)
(8.00
X Extended
.240
(25.40
�1.52)
�.05)
ΔR
0.25%Applications
max. Note
Cond.
C,
± 3.18)
(38.10
.040
�.002
3.000
�.100
Please
contact
Caddock
Engineering.
C 500 Meg
model
number
(Example:
MG750-15).
that
overload
Fig.
1A:
Kelvin
layout
Standard
0.5%
max.
5.0
15,000
1,000
1 KC 288
1,500 M
MG745
Typerecom2
Fig.
1B:
Kelvin
layout
C
St'd
with
"-15"
rating
N/A
C
C
Models
with low
inductance
construction
areMeg
in shaded
areas.
(6.10
.315�.76)
±.030 (1.02
�.05)
�2.54)
(76.20
±.002
.040
4.000
±.120
resistance
values.
.240
�.030
�.002
2.000 �.080
Solderable
Leads
8.0
20,000
1,000
1,000
Meg 1,000
5,000
320
Meg 300
MG 78510,000
Resistance
Tolerances
±1.0%
to
±0.1%.
Moisture
Resistance:
Mil-Std-202,
Method
106,
(8.00�.76)
±.76) .040
3.6
1,000
750800
�Ω
Meg
M M Kelvin
178
Meg
MG735
Type
2®from
and
overvoltage
ratings
do
not
apply
to Ratings
the
"-15"
resistors.
(1.02�.05)
±.05)
(101.60�2.03)
±3.05)
mended
for
values
below
0.20Ω
C
Caddock's
Micronox
resistance
films
the
source
of
Preconditioning
Power
and
Voltage
recommended
for
higher
(6.10
Fig.
1A:
Kelvin
layout
recom.315 �.030
Fig.
1B:
layout
C developing
(1.02
(50.80
X for
X with
For
immediate
engineering
assistance
in
Low
Ratio
TC
matched
C
C
C Models
=5.0
Current
connection
.040 �.002
2.125 �.060
St'd
"-15"
rating
0.8%
max.
Extended
Range
0.8%
max.
with
Caddock's
Non-Inductive
Resistance
Pattern
are
in non-shaded
areas.
X
XCCare
1,000
400 �
500 Meg range,
2,500
M of (53.98
10,000
Meg
MG750
Type 2
.315�.76)
±.030 (1.02
Encapsulation:
Highoperating
Temperature
Silicone
Conformal.
(8.00
0.4%
max.
±.002 ΔR
.040
5.000
±.120
CK 128Resistors'
Temperature
Coefficient,
for1,000
standard
resistance
�.05)
�1.52)
DIMENSIONS
INMG
INCHES
AND
(MILLIMETERS)
Fig.
1A:
Kelvin
layout
recomResistance
ranges
for
"-15"
resistors
shown
in
the
table
are
Fig.
1B:
Kelvin
layout
C
.315
�.030
C
C
resistance
values.
the
Type
Precision
High
Voltage
outstanding
All
power
ratings
and
maximum
voltage
ratings
400
Meg
10.0
25,000
1
1,250 Meg
6,250
M
mended
for
values
below
0.20Ω
MG
810
�.002
.040
1.500
�.060
S
=
Sense
connection
recommended
for
higher
high
voltage
resistor
sets,
our
Engineering
and we
will
(8.00
±.76)call
Xwrite
X Applications
±.05)
(1.02or
±3.05) (8.00
(127.00
3.6
6,000
1,000
300 � 64 Meg 300 Meg
1,500
M
Type 2
MG740
Extended
Range
0.8% max.
�.76)
Thermal
Shock:
Mil-Std-202,
Method
107,
.315 �.030
(1.02
�.05)to "Standard
�1.52)
(38.10
.040
3.125 �.060
�.002
80mended
invalues
combination
with
resistance
as
for
below
Cppm/°C
= 7.5
Current
connection
from
"-15
Min."
Max."
Load
Life:
1,000
hours
at
+125°C
atproduct
rated
for
higher
are
for
continuous
duty.
These
ratings
are
based
on
preX
Type
2 0.20Ω
15,000
1,000
600
�X 192 MegX tolerances
750 Megberecommended
3,750
M
combination
of
performance
features:
MG780
SX
S
resistance
values.
6.000
±.120
±.002
.040�.05)
.350
±.040
pleased
to
offer
the
best
solution
from
our
high
voltage
resistor
Applications
Engineering
�.76)
(8.00
Sales
and
Corporate
Office
(79.38
�1.52)
(1.02
30,000
1,000
1 K 384 Meg 2,000 Meg 10,000 M (152.40
MG
815 15.0
.240
�.030
ΔR
0.25%
max.
Cond.
C,
.040
�.002
3.000
�.100
±.05)
(1.02
±3.05)
tight
as
±0.1%.
(8.89
±1.02)
Solderable
Leads
voltage,
not to
exceed
power.
Derating
Curve:
S North
= Sense
connection
100
resistance
values.
5.0
15,000
1,000
1 KX 288 MegX 500 Meg
1,500 M
MG745
Type 2
C
Current
connection
levels
applied
duringrated
the1717
manufacturing
Non-Inductive
17271
Umpqua
Hwy.
Chicago Avenue
�.76)voltage
(6.10
.315 �.030
capabilities.
�.05)Performance
(1.02
�2.54)stress
(76.20
.040 �.002
4.000 �.120
Single-resistor
values
high
as
10,000
S S Megohms.
20,000
1,000
800
� 320
1,000
5,000
M (101.60
MG785
Type
2asinductance
80
Moisture
Resistance:
Mil-Std-202,
Method
106,
C=
= 8.0
Current
connection
�.76)
(8.00
Type
MG
resistors
have
demonstrated
stability
of 0.01%
S
Models
with
low
construction
are
inMeg
shaded
areas.
�.05)
(1.02
Roseburg,
Oregon
97470-9422
Riverside,
California
92507-2364
S
Sense
connection
X Meg
X
Encapsulation:
High
Temperature
Silicone
provide
for
stable
resistor
performance
even
.315
�.030 to
Most
models
are
manufactured
with
Caddock's
Resistance
Range
Load
Life,
�R
�.002S
.040
2.125 �3.05)
�.060 process
Maximum
continuous
operating
voltages
as
high
as
60
5.0
1,000
400 � 128 Meg
500 [email protected]
Meg 2,500 M
10,000
MG750
2
�.76)
(8.00
ΔR
max.uses a serpentine
RATED
POWER
ORinType
.315
�.030
e-mail:
•Non-Inductive
web:
www.caddock.com
S=
Sense
connection
�.05) S overload
�1.52)under
Phone:
(541)
496-0700
Phone: (951)resistive
788-1700
Conformal.
.040 �.002
5.000
�.120
per
1,000
hours
extended
load
life400
testing
of
standard
: (1.02
S0.4%
Models
with
Caddock's
Non-Inductive
Resistance
Pattern
are in(53.98
non-shaded
areas.
momentary
conditions.
Design
which
Type
2
Meg
10.0
25,000
1,000
1
K
1,250
Meg
6,250
M
RATED VOLTAGE,
% 40
MG810
S
S
�.76)
(8.00
Standard
max.
48,000
volts
("-15"
ratings).
MG750
-100M
- 1% at0.5%
(1.02
�3.05)
(127.00
Note:
Actual
width
of current
trace is based
magnitude
of current. Point
connection
should
be in
the�.05)
areaSshown.
ForonCaddock
Distributors
listedof
by
country
.315caddock.com/contact/dist.html
�.030
Fax:
(541)7.5
496-0408
(951)
369-1151
.040
3.125
�.060 see
�.002
Sforvoltages
Load
Life:
1,000
+125°C
at
ratedin
resistance
range
values.
Type 2
15,000
1,000
600 � 192
750 Meg 3,750 M
Maximum
operating
60%hours
highertoFax:
than
the
values
MG780
20
pattern
neighboring
lines
carry
current
�.76)that
(8.00
S Meg
S
(79.38
�1.52)
�.05)
(1.02
.040 provides
�.002
6.000 �.120
.350
�.040
Overvoltage
capabilities
of
150%
standard
Model
Number:
Tolerance
St'd with "-15"
rating
0.8%
max.
15.0
30,000
1,000
1 Kof 384
Meg 10,000 M (152.40
Meg 2,000working
MG815
Type
2 LTD
voltage,
not
to
exceed
rated
power.
0
RHOPOINT
COMPONENTS
LTD.
RHOPOINT
COMPONENTS
�.05)
(1.02
�3.05)
listed
in
the
table
may
be
specified
by
adding
to
the
�1.02)
(8.89
Tel: +44 "-15"
(0)1883
717988
This
exceptional
has
been
proven
through
opposite
directions,
thereby
achieving
maximum
cancellation
S
S 275
© 2004
Caddock
Electronics, Inc.performance
28_IL110.1004
.315
�.030
.040
�.002
4.000
�.120
25
75
125
175
225
Note:
Actual
width
current
isvalues,
based
on(except
magnitude
ofMeg
current.
of connection
should
be
in the area shown.
voltages
for
all of
models
and
"-15"
ratings).
8.0Road,
20,000
1,000
800 �
5,000Point
M (101.60
320
Meg 1,000
MG785
Type 2 trace
Holland
Road
Resistor
Value:
Holland
Hurst
Green,
�.76) (1.02
Fax:
+44max.
(0)1883 712938
Extended Range
0.8%
�.05)
�3.05) (8.00
Specifications:
RATED
RATED
RATED
LOAD,
LOAD,
LOAD,
%% %
RATED LOAD, %
Style FC Derating Curve For General Application
Style FC Derating Curve For General Application
Style FC Derating Curve For General Application
Type MG Precision High Voltage Resistors
Now with Extended Resistance Range to 10,000 Megohms and Additional Models
Temperature Coefficient as tight as 80 ppm/°C, Combined with Excellent Long-Term Stability and Precision Tolerances.
Type MG Precision High Voltage Resistors
•
•Recommended Circuit Board Layout
Circuit
Board Resistance
Layout
Now
Extended
Range to 10,000 Megohms and Additional Models
(current
andwith
sense
connections):
•Recommended
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):
•
•
••
•
CADDOCK
Ordering Information
•
TEMPERATURE,
many years of use in AMBIENT
equipment
that °Cdemands the highest
model
(Example:
MG750-15).
that�Roverload
Resistance
Range
Load resistor.
Life,
of flux number
fields over
the entire
length of Note
the
This
Hurst
Green
RHOPOINT
LTD
Oxted,Models
Surrey,
RH8
e-mail: [email protected]
Note:
Actual
width
of9AX
current
trace
is±1.0%
based onto
magnitude
of areas.
current. PointCOMPONENTS
of
connection
should
in the
shown.
with
low
inductance
construction
are
in shaded
.315
�.030 be
.040
�.002area
5.000
�.120 and
•reliability
Resistance
Tolerances
from
±0.1%.
RHOPOINT
LTD
overvoltage
ratings
do web:
not
apply
the0.5%
"-15"
and
stability,
including
X-ray
efficient
non-inductive
construction
is to
accomplished
without
Type 29AX
400
Meg amplifiers,
10.0
25,000
1,000
1 KonTWT
1,250ofMeg
6,250Point
M
Solderable
Leads
MG810
RHOPOINT
COMPONENTS
LTD.
Oxted,
Surrey,
RH8
web:
www.rhopointcomponents.com
�.76) be
Standard
max. resistors.
Phone:Actual
+44COMPONENTS
(0)
1883
www.rhopointcomponents.com
Note:
width
of 717988
current
trace
is based
magnitude
current.
of connection
should
in the
shown.
�.05)area
(1.02
�3.05) (8.00
(127.00
Models
with
Caddock's
Non-Inductive
Resistance
Pattern
are
in
non-shaded
areas.
Holland
Road,
Hurst
Green,
•systems,
Temperature
Coefficient,
for standard
resistance
range, of 6.000 �.120 Resistance
ranges
for "-15"
shown inSilicone
the table
are
geophysical
and medical
electronics.
RHOPOINT
COMPONENTS
LTD
derating
any
advantages.
Fax: +44 (0)
1883
712938instruments,
e-mail:resistors
[email protected]
Encapsulation:
High Temperature
Conformal.
�.002performance
.350 �.040 of.040
COMPONENTS
LTD
RHOPOINT
COMPONENTS
St'd
with "-15" rating
Oxted,
Surrey,
RH8
9AX
15.0
30,000
1,000
1 K 384RHOPOINT
2,000 Meg 10,000
Meg tolerances
MG815
TypeLTD.
2 LTD
Tel:0.8%
+44max.
(0)1883
717988
RHOPOINT
COMPONENTS
80 ppm/°C
in combination
with resistance
asM (152.40
Holland
Road,
Hurst
Green,
�.05)to "Standard Max."
�3.05)from
(8.89 �1.02)
IL-110.0201
"-15 (1.02
Min."
Holland
Road
Fax:0.8%
+44
(0)1883 712938
Phone: Surrey,
+44
(0)
18839AX
717988
27.1 IL106.0802
web: www.rhopointcomponents.com
RHOPOINT
COMPONENTS
LTD
Holland
Road,
Hurst
Green,
Oxted,
RH8
Extended
Range
max.
Applications
Engineering
Sales
and
Corporate
Office
tight
as
±0.1%.
Hurst
Green
Resistance
Dimensions
in
inches
and
(millimeters)
e-mail:
[email protected]
Specifications:
Non-Inductive
Performance
Max.
Fax:
(0)Umpqua
1883
712938
[email protected]
COMPONENTS
LTDe-mail:
Oxted,
Surrey,
RH8
9AX
Overload Dielect.
Model+44
WattPhone:
+44
(0)
1883
717988
web:
www.rhopointcomponents.com
Models
with
low
inductance
construction
areRHOPOINT
in shaded areas.
17271
North
Hwy.
1717 Chicago Avenue
RHOPOINT
COMPONENTS
LTD.
Oxted,
Surrey,
RH8
9AX
Continuous
web:
www.rhopointcomponents.com
•Roseburg,
Type
MG
resistors
have
demonstrated
stability
of
0.01%
Standard
Extended
-15
Solderable
Leads
Rating Strength Min.
No. +44
age
A
B
C
Most
models
are manufactured
with Caddock's
Phone:
+44
(0)
1883
717988
web:
www.rhopointcomponents.com
Fax:
(0)
1883
712938
e-mail:
[email protected]
Oper.
Volt.
Resistance
Tolerance:
Oregon
97470-9422
Riverside,
California
92507-2364
Max. are in
Max.
Min.
Models
with
Caddock's
Non-Inductive
Resistance
Pattern
non-shaded areas.
27.1
IL106.0802
per+44
1,000
hours
in extended
load life
testing
standard
Fax:
(0) 496-0700
1883
712938
Encapsulation:
High
Temperature
Silicone
Conformal.
e-mail:
[email protected]
Design
which
uses
a serpentine
e-mail:of
[email protected]
•Non-Inductive
web:
Phone:
(541)
Phone:
(951)resistive
788-1700
�.015 .025 �.002
.094www.caddock.com
.313 �.020
Resistance
Range
Tolerance
IL-110.019
600
200 �
5 Meg
N/A
750
N/A
MG650 0.5
Type 1
27.1 IL106.0802
CADDOCK
CADDOCK
resistance
range values.
�.38)
(2.39
�.05)
(7.95 �.51)
For Caddock Distributors listed by country
see
caddock.com/contact/dist.html
Fax:
(541) 496-0408
(951)
369-1151
pattern
that(.64
provides
for neighboring lines toFax:
carry
current
in
27.1 IL106.0802
Applications
Engineeringperformance has been proven through .313 �.030 .109 �.025 .025 �.002
Corporate
Office
Standard
�1%, and
�0.5%,
�0.25%,
�0.1%
This
exceptional
opposite
directions,
thereby
achievingSales
maximum
cancellation
Type
1
0.5
600
750
200
�
8
Meg
N/A
N/A
MG655
17271
North Umpqua
Hwy.
1717 •
Chicago
Avenue
(7.95 �.76) (2.77 �.64)
(.64 �.05)
©
2004 Caddock
Electronics,
Inc.
28_IL110.1004
Hurst
Green
•
Surrey
RH8
9AX
•
UK
many years
of 97470-9422
use in equipment that demands the highest .500 �.030
St'd with
"-15" length
rating
�1% 92507-2364
of .094
flux�.015
fields
over the
entire
of the
resistor.
This
Roseburg,
Oregon
Riverside,
California
.025 �.002
Type 1 including
1,000stability,
750
400 �TWT
Meg
N/AX-ray(12.70 �.76) (2.39 �.38)
N/A amplifiers,
MG660 0.6 and
Email • [email protected]
reliability
(.64 �.05)
efficient
non-inductive
construction
without
e-mail:[email protected]
• web: www.caddock.com
Phone:
(541) 496-0700
Phone:�1%
(951) 788-1700
Extended
Range is accomplished
�.015
For
Caddock
Distributors
listed by country
see.094
caddock.com/contact/dist.html
Web • www.rhopointcomponents.com
+44
(0)
870
1188
.750Tel:
�.030
.025
Fax:
(541)0.8496-0408
Fax: (951) 369-1151
systems,
geophysical
instruments,
and
derating
of 608
any�.002
performance advantages.
600
� medical
2,000
750
20electronics.
Meg
N/A
N/A
MG680
Type
1
UK & Ireland
Distributors
© 2004 Caddock Electronics, Inc.
1.0
4,000
Type 1
MG710
Max.
Overload
Model Watt-
750
Dielect.
800 �
50 Meg
N/AResistance
N/A
(19.05 �.76) (2.39 �.38)
(.64 �.05)
.094 �.015 .025 �.002
1.000 �.040
(2.39 �.38)
Dimensions
in inches
and (millimeters)
(25.40 �1.02)
(.64 �.05)
Temperature Coefficient:
Resistance
Specifications:
Range
28_IL110.1004
TC Specifications
Page 2 of 2
Type
CC
Low
Resistance
Precision
Chip
Resistors
Type
MG
Precision High
Voltage
Resistors
Type
CC
Low
Resistance
Precision
Chip
Resistors
Type
CCLow
LowPrecision
Resistance
Precision
Chip
Resistors
Type
MG
High
Voltage
Resistors
Type
CC
Resistance
Precision
Chip
Resistors
Type MG Precision High Voltage Resistors
Type MG Precision High Voltage Resistors
Page
Page22 of
of 22
Page
Page 2
2 of
of 2
2
Page 1 of 2
Page
1 of 2
2
Page
2
of
Page 2 of 2
is
a
hybrid
mountable
version
with
metallized
pads
for
wire
bonding
utilizing
aluminum
wire
and
Style
WB
Wire
Bond
Version
is
a
mountable
version with
pads
for
bonding
utilizing
aluminum
wire
Style
WB
- Wire
Bond
Version
is metallized
a hybrid
hybrid
mountable
with metallized
metallized
pads
for wire
wire
bonding
utilizing
aluminum
wire and
and
Style
WB
Wire
Bond
Version
• Style
FC with
--Flip
Chip
version for
surface mount
applications.
a
back
surface
for
solder
attachment
of
the
back
surface
to
a
heat
sinking
substrate.
Now
Extended
Resistance
Range
to version
10,000
Megohms
and
Additional
Models
a
metallized
back
surface
for
solder
attachment
of
the
back
surface
to
a
heat
sinking
substrate.
MG 650
a
metallized
back
surface
for
solder
attachment
of
the
back
surface
to
a
heat
sinking
substrate.
StyleWB
WB -- Wire
Bond
version
for hybrid applications
with metallized
backmetallized pads for wire bonding utilizing aluminum wire and
is a hybrid mountable
version with
Style
Wire
Bond
Version
Page 1 of 2
MG 655Coefficient as tight
Temperature
asCapability
80ofppm/°C,
withforExcellent
Long-Term
Stability
and
Information
surface
for solder down heat Power
sinking
the
chip, Combined
includes
termination
a metallized
back bondable
surface
solder attachment
of the back
surface
to aPrecision
heat sinkingTolerances.
substrate.
Power
Capability
Information
Type MG Precision High Voltage Resistors
Type MG Precision High Voltage Resistors
Power Capability Information
Resistance
in
MG pads
650
MG
Thermal
Resistance
to 660
receive
aluminum
wire
bonds.
Resistance
® resistance
Dimensions
in inches
inches and
and (millimeters)
(millimeters)
Page 1 of 2
Thermal
Resistance
Caddock's
Micronox
films are Max.
the Chip
source of Dimensions
Preconditioning
for Power and VoltageComments
Ratings
Resistance
Dimensions
in inches and (millimeters)
ThermalR
Resistance
Comments
θJC
R
Max.
Chip
Model
Power
Capability
Information
θJC
MG
655
Commentsvoltage ratings
680
Temperature
Model MG
R
Film
(J)
to
Solder
Pad
(C)
Max.
Chip
the •Type
MG
Precision
High
Voltage
Resistors'
outstanding
All
power
ratings
and
maximum
operating
Thermal
resistance
is
provided
to
optimize
high
power
designs
when
utilizing
θJC
Temperature
Film (J) to Solder Pad (C) Temperature
Model
Min.
Max.
A
B
C
D
note
3)
Resistance
Film
(J)(see
to Solder
Dimensions
inches
and (millimeters)
Min.
Max.
A
B infor
C
D
Thermal
Resistance
(see
note
3)Pad (C)
are
continuous
duty.
These ratingsComments
are based on precombination
of performance
features:
MGthermal
710
Min. conductivity
Max.
circuit
board
substrates
such
as
Alumina.
A IMS or
B
C
D
MG higher
660
(seeRnote
3)
Max. Chip
.200
±.007
±.007
±.003
.150
.027
.050
min.
θJC
Model
.200
±.007
.150
±.007
.027
±.003
.050
min.
150°C
13.9°C/Watt
Aluminum
wire
to
be
for
CC2015WB
0.020
Ω
10.0
Ω
stress
voltage
levels
applied
during
the
manufacturing
Temperature
Film
(J)
to
Solder
Pad
(C)
150°C
13.9°C/Watt
Aluminum
wire
to
be used
used
for bonding
bonding
CC2015WB
0.020
Ω
10.0
Ω
(5.08
(3.81
(.69
±.18)
±.18)
±.08)
(1.27
min.)
.200
.150
.027
.050
min.
±.007
±.007
±.003
Single-resistor
values
as
high
as13.9°C/Watt
10,000
MG 7120.020
• Resistance
range
down
to 0.010
ohm
atMegohms.
±5%, 150°C
0.050 ohm
MG
680
(5.08Aat
±.18)±2%,(3.81B±.18)
(.69C±.08)
(1.27Dmin.)
Aluminum wire to be used for bonding
CC2015WB
Ω
10.0
Min.
Max.
(see note
3)
®Ω resistance
±.18)
±.18)
±.08) for(1.27
min.)
(5.08of
(3.81
(.69provide
Caddock's
Micronox
films
are
the
source
Preconditioning
Power
and
Voltage
Ratings
.027
±.003
.250
±.007
±.007
.200
.040
min.
process
to
for
stable
resistor
performance
even
.027
±.003
.250
±.007
±.007
.200
.040
min.
Aluminum
wire
to
be
used
for
bonding
8.33°C/Watt
150°C
Ω
Ω
0.025
10.0
CC2520WB
Maximum
continuous
operating
voltages
as
high
as
and
0.10
ohm
at
±1%.
MG
710
Aluminum wire to be used for bonding
8.33°C/Watt
150°C
0.025 Ω
10.0 Ω
CC2520WB
(.69
±.08)
(6.35
(5.08
±.18)
±.18)
(1.02
min.)
.200 ±.007
.150 ±.007
.050 min.
.027
.250
.200
.040
(.69 ±.003
±.08)
(6.35
(5.08
±.18)
±.18)
(1.02
min.)maximum
MG
7140.025
150°C
13.9°C/Watt
Aluminum
wire to be used
for bondingratings
the
Type
MG
Precision
Voltage
Resistors'
outstanding
CC2015WB
0.020
All
power
ratings
and
operating
voltage
8.33°C/Watt
Ω
Ω
10.0 High
CC2520WB
under
momentary
overload
conditions.
(5.08
(3.81
(1.27
(.69
±.08)
(6.35
(5.08
±.18)
±.18)
(1.02
min.)
®
48,000
volts ("-15"
ratings).
resistance
are the source
of response
Preconditioning
forduty.
Power
and 60%
Voltage
Ratings
•Caddock's
Low
provides
excellent films
high frequency
and .250
pulse
MG
712 inductance
are
for continuous
These
ratings
are
based
precombination
of Micronox
performance
features:
Maximum
operating
voltages
higher
than
theon
values
.027 ±.003
±.007
±.007
.200
.040 min.
Aluminum
wire to be used
for bondingratings
8.33°C/Watt
150°C
Ω
Ωof- 150%
10.0 High
CC2520WB
Overvoltage
capabilities
ofPower
standard
working
MG
7150.025
the
Type
MG
Precision
Voltage
Resistors'
outstanding
Allinmaterial
power
ratings
and
maximum
operating
voltage
Note
3:
Thermal
Resistance
In
High
Applications
where
board
(.69 ±.08)
(6.35the
(5.08
±.18)circuit
±.18)
(1.02
min.)
Note
3:
Thermal
Resistance
In
High
Power
Applications
where
the
circuit
board
material
stress
voltage
levels
applied
during
the
manufacturing
•
High
pulse
handling
and
overload
capability.
listed
the
table
may
be
specified
by
adding
"-15"Values:
to the
CC2015WB
Standard
Resistance
Note
3:
Thermal
Resistance
In
High
Power
Applications
where
the
circuit
board
material
Single-resistor
values
as
high
as
10,000
Megohms.
CC2015WB
Standard
Resistance
Values:
voltages
forofheat
allperformance
models
andfeatures:
values,
(except
"-15" ratings).
MG 714 high
are for
continuous
duty.
These
ratings
are based
oneven
preprovides
sinking
benefits
(such
as
Alumina,
or
the
resistance
of
combination
CC2015WB
Standard
Resistance
Values:
provides
high
heat
sinking
benefits
(such
as IMS,
IMS, motor
Alumina,
or other)
other)
the thermal
thermal
resistance
of (Example:
Tolerance
CC2015WB
±1%
(except
as
process
to provide
for stable
resistor
performance
model
number
MG750-15).
Note
that overload
MG
716
Tolerance
CC2015WB
±1% Standard
Standard
(except
as noted).
noted).
provides
high
heat
sinking
benefits
(such
as
IMS,
or
other)
the
thermal
resistance
of
• chip
Bestresistor
choice
for
switching
power
supplies,
speed
controls,
and
high
Maximum
continuous
operating
voltages
as Alumina,
high
as
stress
voltage
levels
applied
during
the
manufacturing
the
is
useful
to
establish
the
maximum
power
capability
the
chip
resistor
in
the
Tolerance
CC2015WB
±1% Standard
(except
as noted).
Note
3: Thermal
Resistance
- In±1.0%
High
Power
Applications
where theof
circuit
board
material
Resistance
Tolerances
from
to
±0.1%.
the
chip
resistor
is
useful
to
establish
the
maximum
power
capability
of
the
chip
resistor
in
the
Single-resistor
values
as
high
as
10,000
Megohms.
0.050
0.25
0.75
Ω
5%
Ω
2%
Ω
Ω
3.30
0.020
under
momentary
overload
conditions.
and
overvoltage
ratings
do
not
apply
to
the
"-15"
resistors.
MGchip
715 resistor
CC2015WB
Standard
Resistance
3.30 Ω
Ω 2%
Ω
Ω
0.050
0.25
0.75 Ω Values:
0.020 Ω 5%
the
isfilm
useful
to establish
the maximum
power
capability
of the element
chip
resistor
the
current
applications.
48,000
volts
("-15"
ratings).
MG sensing
720
application.
The
temperature
is
measured
at
the
center
the
and
the
process
toin
provide
for
stable
performance
even
3.30
0.050resistor
0.25
0.75 Ω
0.020
0.025
0.075
0.30
1.00
4.00
Ω
5%
Ω
Ω
provides
high
heat
sinking
benefits
(such
asresistance
IMS,
Alumina,
other)
the thermal
resistance
of
application.
The
film
temperature
is
measured
at
the
center
of
the
resistor
element
and
the
Temperature
Coefficient,
for standard
range,
of resistor
0.025
0.07560%
0.30 Ω
1.00the
4.00
Ω
5%CC2015WB
Ω 2%
2%
Ωin
Ω
Ω
Maximum
operating
voltages
higher
than
values
Maximum
continuous
operating
voltages
as
high
as orof
Resistance
ranges
for
"-15"
resistors
shown
the
table
are
Tolerance
±1%
Standard
(except
as
noted).
Non-inductive
performance
application.
The
film
temperature
is
measured
at
the
center
of
the
resistor
element
and
the
0.025
0.075
0.30
1.00
4.00
Ω
5%
Ω
2%
Ω
Ω
Ω
0.030
0.10
0.33
1.50
5.00
Ω
Overvoltage
capabilities
of
150%
of
standard
working
under
momentary
overload
conditions.
solder
pad
temperature
is
measured
at
the
soldered
interface
with
the
circuit
board.
Maximum
with
Caddock's
exclusive
design
0.030
0.10
0.33
1.50
5.00
Ω
5%
Ω
Ω
Ω
Ω
the
chip
resistor
is
useful
to
establish
the
maximum
power
capability
of
the
chip
resistor
in
the
MG ppm/°C
716pad
solder
temperature
is
measured
at
the
soldered
interface
with
the
circuit
board.
80
in("-15"
combination
with resistance
tolerances
as
listed
in Maximum
the
table
may
specified
adding
"-15"
to3.30
the
48,000
volts
ratings).
from
"-15
Min."
to "Standard
Max."
0.030
0.10
0.33
1.50
5.00
0.050ΩΩ 2%by 0.25
0.75
0.020 Ωbe
0.033
0.15
0.40
2.00
7.50
5%
Ω
Ω
Ω
MG
725
solder
pad
temperature
is
measured
at
the
soldered
interface
with
the
circuit
board.
Maximum
0.033
0.15
0.40
2.00
7.50
Ω
5%
Ω
Ω
Ω
Ω
voltages
for
all
models
and
values,
(except
"-15"
ratings).
Maximum
operating
voltages
60%
than
values
through
the
temperature
of
the
chip
resistor
(at
the
center
of
chip)
should
not
exceed
150°C
application.
The
film
temperature
is
measured
at
the
center
of
the
resistor
element
and
the
0.033
0.15
0.40
2.00
7.50
0.025
0.075Ω
0.30
1.00the
4.00 Ω
Ω 2% higher
0.040
0.20
0.50
2.50
8.00
Ω
5%
Ω
Ω
is
a
surface
mount
version
with
solderable
pads
for
flip
chip
soldering.
through
the
temperature
of
the
chip
resistor
(at
the
center
of
chip)
should
not
exceed
150°C
tight
as
±0.1%.
model
number
(Example:
MG750-15).
Note
that
overload
Overvoltage
of 150%
standard
0.040 Ω 5%
0.20 Ω
0.50 Ω
2.50 Ω
8.00 Ω
MG 720
Non-Inductive
Performance
through
thetable
temperature
of capabilities
the of
chip
resistor
(at the of
center
of chip)working
should not exceed 150°C
0.040
0.20
0.50
2.50
8.00
5%
Ω
0.030 Ωbe
0.10 Ω
0.33
1.50
5.00the
3.00
10.0
Ω
Ω
temperature
range
the
application.
listed
in
the
may
specified
by
adding
"-15"
to
solder
pad
temperature
is
measured
at
the
soldered
interface
with
the
circuit
board.
Maximum
Resistance
Tolerances
from
±1.0%
to
±0.1%.
Non-inductive
performance
717
3.00 Ω
10.0 Ω
temperature
range
of
application.
andMost
overvoltage
ratings
not
apply
to 0.40
the
resistors.
Type
MGMG
resistors
have
demonstrated
stability
ofInformation
0.01%
voltages
for
all models
and
values, (except
"-15"
ratings).
3.00
10.0
Ω
models
are
manufactured
with
Caddock's
temperature
range
of the
the
application.
0.033
0.15design
2.00
7.50 Ω
Ωdo
5%exclusive
Ω
Ω "-15"
with
Caddock's
Power
Most
models
are
available
with
model
number
(Example:
MG750-15).
Note
that
overload
through
the
temperature
of the
chip
resistor
the life
center
ofCapability
chip)
notofexceed 150°C
MG 725
Temperature
Coefficient,
for(at
standard
resistance
range,
CC2520WB
Standard
Resistance
Values:
0.040"-15"
0.20
0.50
2.50 Ω
8.00
Ω
5% resistors
Ω
Ω in the
Ω
Resistance
ranges
for
shown
table
are
per
1,000 hours
in extended
load
testing
of should
standard
CC2520WB
Standard
Resistance
Values:
Non-Inductive
Design
which
uses
a
serpentine
resistive
Resistance
Dimensions
in
inches
and
(millimeters)
Resistance
Tolerances
from
±1.0%
to
±0.1%.
General Applications High Power Applications
CC2520WB
Standard
Resistance
Values:
Caddock's
Non-inductive
Serpentine
Pattern
and
overvoltage
ratings
do
not
apply
to
the
"-15"
resistors.
3.00
10.0 Ω
Ω
temperature
range
of
the
application.
Tolerance
CC2520WB
±1%
Standard
(except
as
noted).
80
ppm/°C
in
combination
with
resistance
tolerances
as
Comments
from
"-15
Min."
to
"Standard
Max."
resistance
range
values.
MG 721
Thermal
Resistance
R
Max. Chip pattern
Tolerance
CC2520WB
±1%
Standard
(except
as
noted).
Power
Rating
that
provides
for
neighboring
lines
to
carry
current
in
θJC
Model
Temperature
Coefficient, for standard
range,
Tolerance
CC2520WB
±1%
Standard
as noted).
"-15"
resistors
shown
in(except
the
table
are
MG 717
TemperatureResistance ranges for
(J) to Solder
PadFilm
(C)of
at 70° C resistance
tight
asexceptional
±0.1%.
Temperature
0.025
Ω
5%
0.050
Ω 2%
Ω
0.25
Ω
0.75
3.30
CC2520WB
Standard
Resistance
Film Temperature
performance
has
beenFilm
proven
Non-Inductive
Performance
0.025
Ω
0.050
Ω
0.25
Ω Values:
0.75
Ω
3.30 Ω
Min.
Max. withshall
opposite
directions,
thereby
achieving
cancellation
Sense
be
A
B
C 5% are
DΩ 2% maximum
Most
models
available
with
(see note 2)through
(see
note
Measuring
Point
80This
ppm/°C
in combination
resistance
tolerances
as
Film
Temperature
Sense connection
connection
shall
be1)
0.025
0.050
0.25
0.75 Ω
3.30
from
"-15
Min."
to
"Standard
Max."
0.030
0.075
Ω
5%
Ω
2%
0.30
Ω
1.00
4.00
Ω
Measuring
Point
Sense
connection
shall
be
0.030
0.075
Ω
5%
Ω
2%
0.30
Ω
1.00
Ω
4.00
Ω
Tolerance
CC2520WB
±1% Standard
(except
as noted).
Typeyears
MG
have
demonstrated
stability ofthe
0.01%
Measuring Point
made
in
the
crosshatched
many
of 0.010
use
in
that
demands
highest
MGresistors
730
Most
models
are
manufactured
with
Caddock's
ofSense
flux
fields
the
entire
length
the
resistor.
This
0.030
0.075
5%
Ω
2% of 0.33
0.30
ΩPattern
1.00
Ω
4.00
Ω
.035
min.
.150
±.007
.120over
±.007 Non-inductive
.027Ω
±.005
Caddock's
Serpentine
0.033
0.10
Ω
1.50
5.00
made
inequipment
the
crosshatched
tight
as
±0.1%.
Wire
Sense
Wire
Solder
Coated
Pads
22.7°C/Watt
Ω
0.015
Ω
0.75
Watt
150°C
0.033
0.10
Ω
5%
Ω
0.33
Ω
1.50
Ω
5.00
Ω
made
inofthe
crosshatched
Non-Inductive
Performance
Sense
Wire
Sense Wire
MG 721
±.18)
±.18)
±.13)
(0.89
min.)
(3.81
(3.05
(.69
per
1,000
hours
in
extended
load
life
testing
of
standard
portion
the
termination
Film
Temperature
0.033
0.10
0.33
1.50
5.00
0.025
0.050
Ω
2%
0.25
0.75
3.30
0.040
0.15
Ω
5%
Ω
0.40
Ω
2.00
Ω
7.50
Ω
Sense Wire non-inductive
Sense
Wire
reliability
including
TWT
amplifiers,
X-ray Point efficient
Non-Inductive
Design
which
uses
a
serpentine
resistive
CC1512FCand stability,
construction
is
accomplished
without
portion
of the
termination
Sense
connection
shall
be
0.040
0.15
Ω
5%
Ω
0.40
Ω
2.00
Ω
7.50
Ω
Measuring
Current
Wire
Current
Wire
Type
MG
resistors
have
demonstrated
stability
of
0.01%
portion
of the
termination
±.007
.120 ±.007 0.040
.022Ω±.003
.035
min.
.150
0.15
5%
0.40
2.00
7.50
0.030
0.075
Ω
2%
0.30
1.00
4.00
Most
are
manufactured
with
Caddock's
0.20
Ω
0.50
Ω
2.50
Ω
8.00
Ω
Current
Wire models
Current Wire
pad.
0.75
Watt
22.7°C/Watt
150°C
0.020
Ω
10.0
Ω
resistance
range
values.
Solderable
PadsΩ
0.20
Ωmin.) lines
0.50
2.50
8.00 Ω
pad.
systems,
geophysical
instruments,
and
medical
electronics.
pattern
that
provides
for
neighboring
toΩ
in
Current
Wire
Current Wire
derating
of any
performance
made
in the crosshatched
(3.81 ±.18)
(3.05
(.56Ω±.08)
±.18)
(0.89
MGhours
735
0.20
Ω
0.50
Ω carry
2.50
8.00
0.033
0.10
5% advantages.
0.33
1.50 current
5.00 Ω
pad.
3.00
Ω
10.0
per
1,000
in
extended
load
life
testing
of
standard
Sense
Sense Wire
SolderWire
pad, soldered
Non-Inductive
Design
which
uses
a
serpentine
resistive
3.00 Ω
10.0 Ω
Solder
pad,
MG
730
.200 ±.007
±.007 0.040
.150
.027Ω±.003
.050
portion
of the
termination
This
exceptional
performance
directions,
thereby
cancellation
3.00
Ω
10.0
0.15
5% achieving
Ωmin. maximum
0.40
Ω
2.00
7.50 Ω
interface
withsoldered
circuit
board.
CC2015FC
Solderable
Pads
Solder
pad,
soldered
(1.40)
1.0 has
Watt been proven
16.0°C/Wattthrough 150°C opposite
0.020.055
Ω
10.0
Ω centered
interface
with
circuit
board.
resistance
range
values.
.055
(1.40)
centered
(5.08
(3.81
(.69
±.18)
±.18)
±.08)
(1.27
min.)
Current
Current Wire
Custom
resistance
and
non-standard
tolerances
pattern
that
provides
forentire
neighboring
lines
toΩ carry
current
interfaceWire
with
circuit
board.
0.20
Ωvalues
0.50
2.50 Ω
8.00
Ωin
pad.in(1.40)
.055
centered that demands
Custom
resistance
values
and
non-standard
tolerances
many years of
use
equipment
of
flux
the
length
the
resistor.
This
Resistance the highest
Dimensions in
inches
andfields
(millimeters)
.250
±.007
±.007 can
±.005
.200over
.032
.065values
min. forof
Custom
resistance
and
non-standard
Max.
be
manufactured
high
quantity
applications.
Circuit
board: through
IMS, Ceramic (Alumina)
, or Solder
other.
Solder
Coated
Pads
MG 745
Watts been proven
13.0°C/Watt
0.010 ΩOverload
0.020 ΩDielect. 1.5 has
150°C opposite
3.00
Ω tolerances
10.0 Ω
Model
ThisWattexceptional
performance
pad, soldered
directions,
thereby
achieving
cancellation
be
manufactured
formaximum
high
quantity
applications.
Circuit
board:
IMS,
Ceramic (Alumina)
, or other.
(6.35 ±.18)
(5.08 ±.18) can
(.81
±.13)
(1.66 min.)
Continuous
reliability
and
stability,
including
TWT
amplifiers,
X-ray
Standard
Extended
efficient
non-inductive
construction
is
accomplished
without
-15
can
be
manufactured
for
high
quantity
applications.
CC2520FC
Circuit
board:
IMS,
Ceramic
(Alumina)
,
or
other.
No.
Strength
A
B with circuitC board. Please contact Caddock Applications Engineering.
MG 735age Oper. Volt..055
(1.40)
centeredMin.
Resistance
Tolerance:
contact
Caddock
Engineering.
.250
±.007fields
±.007 Please
.200 over
.041 ±.004
.040values
min. Applications
many
years
of 0.025
useΩ Rating
ininstruments,
equipment
that
demands
theWBMax.
highest
Max.
Min.
ofinterface
flux
the
entire
length
of
resistor.
This
Custom
resistance
and the
non-standard
1.5and
Watts medical
11.5°C/Watt
10.0
Ω
150°C derating
Solderable
Pads tolerances
Please
contact
Caddock
Engineering.
systems,
geophysical
electronics.
performance
advantages.
Resistor mounting
(6.35�.015
(5.08 ±.18)
(1.04 ±.10)
±.18)of any
(1.02 min.) Applications
WBIMS,
Resistor
mounting
.094
.025 �.002
.313
�.020efficient
can
be
manufactured
for
high
quantity
applications.
reliability
and
stability,
including
TWT
amplifiers,
X-ray
Circuit
board:
Ceramic
(Alumina)
,
or
other.
Resistance
Range
Tolerance
non-inductive
construction
is
accomplished
without
MG
731
WB
Resistor
mounting
600
200 �
5 Meg
N/A
750
N/A
Type 1
MG650 0.5
(2.39 �.38)
�.51)
�.05)
(7.95
(.64
Please contact
Caddock Applications Engineering.
MG 745 geophysical instruments, and medical electronics.
systems,
derating
of.025
any
performance
advantages.
Standard
Resistance
Values:
Standard
�1%, �0.5%, �0.25%,
�0.1%
.109 �.025
.313 �.030in inches
�.002CC1512FC
Resistance
and (millimeters)
ResistorDimensions
mounting
Max.
Type 1
0.5
600
750
200 �
8 Meg WBN/A
N/A
MG655
Overload
Model WattDielect.
(2.77 �.64)
�.76)
�.05)
(7.95
(.64
Tolerance
CC1512FC
±1% Standard (except as noted).
Continuous Rating
Standard Extended
-15
No.
ageMGOper.
Strength
A
B
C
St'd
with
"-15"
rating
�1%
Min.
740 Volt.
.094 �.015
3.30 Ω
Max.
Max.
.025 �.0020.010 Resistance
.500 �.030in inches
Min.Resistance
Ω 5% 0.033 Ω Tolerance:
5%
0.20 Ω
0.75 Ω
MG 731 0.6
Dimensions
and (millimeters)
Max.
Type 1
1,000
750
400 �
10 Meg
N/A
N/A
MG660
�.38)
(2.39
Overload
Model WattDielect.
�.76)
(12.70
(.64 �.05)
0.015 ΩResistance
5% 0.040Range
Ω 5%
0.25 Ω
1.00
Ω
�.015 .025
.094rating
Continuous Rating
Extended
�1% 4.00 Ω
.313
�.020
�.002
Note
1: General
Applications
- The
power
Range
Tolerance
Standard
Extended
-15
No. 100age
Strength
A
B
C
0.5 Oper.600
200
�
5
Meg
N/A
750
N/A
Type
1
MG650
Min.
5.00 Ω
�.38) .025
5% 0.050 Ω Tolerance:
2%
0.30 Ω
1.50 Ω
.094 �.015
Volt.
Resistance
�.51) (2.39
�.05)0.020 Ω
(7.95
(.64 �.002
.750
�.030
Max.
Max.
Min.
applications
upon
0.5
sq.�.38)
in. (.64
2,000
750
20
Meg
N/Ais based
600 for
� general
N/A
MG680 80 0.8
Type 1
(2.39
7.50 Ω
Ω 5% Standard
0.075 Ω 2%
0.33
Ω �0.5%,
2.00 Ω �0.25%,
(19.05
�.76)
�.05)0.025Packaging
�1%,
�0.1%
Temperature
Coefficient:
�.015 .025
.094 �.025
.313
�.030
information:
.025 �.002
�.020 .109
�.002 Packaging
Temperature
Coefficient:
referenced
note:
2 Solder
Resistance
Range
Tolerance
information:
� to
8termination
N/A pad or
N/A
MG655
8.00 Ω
Temperature
Coefficient:
TC
referenced
to
600
200 (300
5 Meg
Meg attachment
750
MG 740 0.5 MG 750
)
of
trace
area
(2
oz.
mm
Solder
attachment
note:
Type 1 TC
MG650
0.030
Ω
5%
0.10
Ω
0.40
Ω
2.50
Ω
(2.77
�.64)
.094
�.015
�.38)
(2.39
(7.95
(.64
�.76)
�.05)
Packaging
information:
.025
1.000
�.040
�.51)
�.05)
(.64�.002
Temperature
Coefficient:
TC
referenced
to
Solder
attachment
note:
60
Style
FC,
flip
chip
resistors,
are
shipped
with
the
bare
1.0
4,000
750
800
�
50
Meg
N/A
N/A
Type 1
MG710
10.0 Ω
∆R
taken
at
+150°C.
+25°C,
0.15
Ω rating
0.50
Ωshipped
3.00
Ω
St'd
with
"-15"
�1%
�.38)
(2.39
Resistance
Style
FC,
flip
chip
resistors,
are
with
the
bare
Style
FC
has
a
bare
ceramic
back
surface.
�1.02)
(25.40
(.64
�.05)
copper) connected
to
each
end
of
the
resistor.
∆R
taken
at
+150°C.
+25°C,
�.015
Standard
�1%,
�0.5%,
�0.1%
�.025surface.
.109
.025
.500
�.030 .094
TC Specifications
Style
has
back
.025 �.002
.313ceramic
�.002 ceramic
Style FC,
flipup
chip the
resistors, are
shipped
with �0.25%,
the bare facside
∆R taken
+25°C,
0.6
1,000
400 �
108 MegFC
N/A
N/A
MG660
Type 1 TC referenced
600at +150°C.
750
200
MG655
Range
Style
FC
has a
aisbare
bare
ceramic
back
surface.
ceramic
sideinformation:
up in
in the pocket,
pocket, with
with the
the solderable
solderable pads
pads fac�.38)
(2.39
(2.77
�.64)
40 0.5
Packaging
�.030
.140
�.76)
�.05)
(12.70
(.64
Temperature
Coefficient:
toN/A
Solder
attachment
note:
(7.95
(.64�.002
�.05)
.400
�.060
.025
Use
Derating
chip
temperature
150°C.
The
recommended
solders
for
flip
chip
0.50
ohm
above,
-20
ppm/°C
ceramic
sideStandard
upRange
in the pocket,
with the solderable
pads facExtended
�1%
ing
down.
Type to
2 +80
0.6 and
1,000
750
800 Maximum
�
20 Meg
N/A
MG712
The
recommended
solders
for
flip
chip
0.50
ohm
and
above,
-20
to
+80
ppm/°C
CC2015FC
Resistance
Values:
MG 780
St'd
with
"-15"
rating
�1%
(3.56
�.76)
ingStandard
down.
�.152)
�.05)
(10.16
(.64
The
recommended
solders
for
flip
chip
0.50
ohm
and
above,
-20
to
+80
ppm/°C
.094
�.015
and
�.015
.094
.750
�.030
.025
FC,
flip
chip
resistors,
are shipped
with
bare
ing down.
.025 �.002
.500
�.030
�.002
MG 750
Style
WB,
wire
bondable
resistors,
are
with
the
∆R to
taken
+150°C.
+25°C,
appropriately
for
the
maximum
0.050
ohm
0.49
0
solder
attachment
are
62Sn
// 36Pb
// 2Ag,
�80
ppm/�C
from
-15�C
to
+105�C,
Tolerance
CC2015FC
±1%
Standard
(except
asthe
noted).
600 Curve
�
0.8
2,000atohm,
20
N/A
N/Ato derate
MG680
Style
FC
has a bare
ceramic
back
Type
1to +200
20
0.6
1,000
750 ppm/°C
400
10 Meg
MG660
Style
WB,
wire
bondable
resistors,
are shipped
shipped
with
the
0.050
to
0.49
ohm,
0
+200
ppm/°C
solder
attachment
are
62Sn
�.38)
�.030
.150
�.38)surface.
(2.39
(19.05
(.64
�.76)
�.05)
St'd
with
"-15"
.562
�.060
.032
�.76) (2.39
�.05)
(12.70
(.64�.002
ceramic
sidewire
uppads
inbondable
the
pocket,
with
theare
solderable
pads
Style
WB,
resistors,
shipped
with facthe
Temperature
Coefficient:
0.050 ohm
ohm
0.49
ohm,
0 2to
to ppm/°C
+200
solder
are
62Sn
/ 36Pb
36Pb
// 2Ag,
2Ag,
wire
bondable
facing
up
Extended
Range
�1% 3.30
1.0 toohm,
1,000 0
750 ppm/°C
200 ambient
� 6.5 Megtemperature
20 Meg attachment
N/A fororthe
MG714
Type
referenced
+25�C.
and
temperature
bondable
pads
facing
up in
inΩthe
thetopocket.
pocket.
below
0.050
to
+300
(3.81
96.5Sn
// 3.5Ag,
standard
Sn
//�.76)
Ag
Cu
0.033
Ω down.
5%
Ω 5%
0.020wire
0.20
0.75 Ω
Ω
�1.52)
(14.27
(.81 �.05)
The
recommended
solders
for
flip
chip
0.50 ohm
and
above,
-20
to
+80
ppm/°C
rating
.094
�.015
below
0.050
ohm,
0
to
+300
ppm/°C
ing
96.5Sn
3.5Ag,
or
standard
Sn
Ag
/
Cu
.094
�.015
wire
bondable
pads
facing
up
in
the
pocket.
.025
1.000
�.040
�.002
.750
�.030
�.002
.025
The
illustration
shows
the
orientation
of
the
CC1512
and
1.0
4,000 0 to Type
800 limitations
�
50
Meg
N/A
N/A
below00.050
ohm,
+300
ppm/°C
MG710
96.5Sn
/
3.5Ag,
or
standard
Sn
/
Ag
/
Cu
600
0.8
2,000
750
20
Meg
MG680
0.025
0.040
Ω
5%
Ω
5%
0.25
Ω
1.00
Ω
4.00
Ω
1
of
the adjacent
materials.
�.38)
TheResistance
illustration
the resistors,
orientationare
of the
CC1512
�.38) / 2Ag,
(2.39
�.030
.140
�1.02)
(25.40
(.64
�.05)
solder
alloys.
785
(19.05
�.76) (2.39
(.64�.002
�.05)
Style
WB, wireshows
bondable
shipped
with and
the
.025
.750
25
70Type
0.050
ohmMG
to
0.49
ohm,
05100
to +200
ppm/°C
are �.060
62Sn
/ 36Pb
Temperature
Coefficient:
Specifications
The
illustration
shows
the
orientation
of CC2520
the
alloys.
2,000
750150
400 � 26 Meg solder
50 Megattachment
N/A
MG715
chip
resistors
in
tape.
resistors
�80
ppm/�C
from
+25�C
to
+105�C,
Inductance:
Less
than
typical
0.030CC2015
0.050
Ω 5%
Ω 2%
0.30
ΩTCThe
1.50
Ω CC1512
5.00
Ωand
MG 780 1.0
(3.56
Range
(19.05
(.64
solder
alloys.
CC2015
chip
resistors
in the
the
tape.
The
CC2520
resistors
Inductance:
Less0TEMPERATURE,
than
52 nH
nH
typical
o
�.030
.140
wireExtended
bondable
pads facing
up in
the The
pocket.
.094/�.76)
�.015
.400 �1.52)
�.060
�.002
.025
.025�.05)
1.000
�.040 Sn
�.002 chips
C
CC2015
chip
resistors
in the
tape.
CC2520
resistors
Inductance:
Less
5
typical
below
0.050
ohm,
to Type
+300
ppm/°C
96.5Sn
/
3.5Ag,
or
standard
Ag
/
Cu
0.075
Ω90°
2%from
0.33
Ω
2.00
Ωthe
7.50
Ω
are
rotated
what
is
shown
in
illustration.
-200
ppm/�C
to
+50
ppm/�C
from
0.6 AMBIENT
1,000 than
20
Meg
N/A
Style
WB
has
a
metallized
back
surface
for
N/A
MG712
1.0
4,000
750
800 �
50
12nH
MG710
(3.56
�.76)
chips
are
rotated
90°
from
what
is
shown
in
the
illustration.
.140
�.030
�.38)
(2.39
Resistance
Style
WB N/A
has a
a metallized
metallized
back surface
surface
for
Range
�.152)
�.05)
(10.16
(.64
.025
1.000 �.060
�1.02) back
(25.40
(.64�.002
�.05)
Standard
and
The
illustration
shows
the what
orientation
of the
CC1512
chips
are rotated
90° from
is
shown
in-15�C
illustration.
Load
Life:
1000
0.10
Ω
0.40
2.50
Ωthe
8.00
Ωand
TC
Specifications
has
for
-15�C
toΩ
+25�C.
Typeat
2 rated
600 � based
1.5
4,000 hours
750 power,
75 MegWB
70 Meg Style
MG716
�80
ppm/�C
from
to +105�C,
�.76)
(3.56
Load
Life:
1000
hours
at
rated
power,
based
Page 1 of 2
solder
alloys.
�.05)
(.64
�1.52)
(25.40
soldering
to
a substrate
or
a
heat
sink.
The
.150
7” dia.
�.030
.140 �.030
St'dRange
with
"-15"
.562
�.002
.032
Load
Life:
1000
at2 nH
rated
power,
based
chip
resistors
in the
The
CC2520
resistors
soldering
to
substrate
or
a
heat
sink.
The
.400 �.060
�.060
�.002 CC2015
.025
0.15
Ω
0.50tape.
Ω to
3.00
Ω
10.0
Ω
Inductance:
Lesshours
than
5
typical
7” dia.
1.0
200 �Power
20 Meg
N/Aa
6.5
Meg
MG714
referenced
+25�C.
MG
810
Type
upon
150°C
max.
chip
temperature,
0.6
1,000
750
800
Meg where
N/A
MG712
soldering
to
a
substrate
or
a
heat
sink.
The
Note
2:
Thermal
Resistance
In
High
Applications
the
circuit
board
(178
mm)
(3.81
�.76)
�.030
.240
(3.56
�.76)
�1.52)
�.05)
(14.27
(.81
7”
dia.
max.
chip
temperature,
upon
150°C
.040
.710
�.050
�.002
�.152)
�.05)
(10.16
(.64
rating
(178 mm) min.
MG 785
to
be
used
are
chips
are
rotated
90° from what is shown
in the
illustration.
Insulation
Resistance:
10,000
Megohms,
Standard
and
Style
a metallized
back
surface
for
1.5
2,000 chipType
750
600 � 17 Meg recommended
75 MegWB225has
M solders
2
MG717
upon
150°C
max.
temperature,
recommended
solders
to
be
used
are
mm)
�.76)
�80Resistance
ppm/�C from -15�C
to(178
+105�C,
�1.27)
�.05)
(18.03
(1.02
12mm
∆R
±
(0.5%
+
0.0005
ohm)
material
high
heat
sinking
benefits
(such recommended
as IMS,
Alumina,
or
other)
the(6.10
thermal
solders
to
be
used
areor
�.030
.140
Load
Life:provides
1000
hours
at2 rated
power,
based
�.030
.150
CC2520FC
Values:
.025
.750
�.060
St'd
with Standard
"-15"
.562
�.060
�.002
.032
12mm
∆R
±
+
0.0005
ohm)
// 36Pb
2Ag,
96.5Sn
3.5Ag,
0.473”
2,000
400 � 6.5
50
26 Meg 62Sn
MG715
Type
Bo
soldering
toN/Aa// substrate
or a /(3.81
heat
sink.
The�.002
�80
ppm/�C
+25�Crated
to7”+105�C,
1.0
750
200
20 Meg
MG714
referenced
to
+25�C.
Overload/Overvoltage:
5from
times
12mm
∆Rresistance
± (0.5%
(0.5%
+of1,000
0.0005
ohm)
62Sn
36Pb
2Ag,
96.5Sn
3.5Ag,
�.76)
dia. power
�.76)
0.473”
.140
�.030
(19.05
�1.52)
�.05)
(.64
Bo
�1.52) //(3.56
�.05)Tolerance
(14.27
(.81�.002
.025
1.500
�.080
Extended
rating
the chip
chipType
resistor
is useful
to establish
theMeg
maximum
power
capability
of�.76)
the or
62Sn
/
36Pb
/
2Ag,
96.5Sn
3.5Ag,
or
CC2520FC
±1%
Standard
(except
asppm/�C
noted).
0.473”
max.
temperature,
upon
150°C
2
Bo
2.0
6,000
750
1
K
150
N/A
N/A
MG720
(178
mm)
-200
ppm/�C
to
+50
from
(3.56
standard
Sn
/
Ag
/
Cu
solder
alloys.
Momentary
Overload:
1.5
times
rated power,
(.64 �.05)
�2.03)
(38.10
recommended
solders
to
be used
are .025
with5%Range
applied
voltage not to exceed
1.5 times
max.140
�.030
standard
Sn
/ Ag
//1.000
Cu
solder
alloys.
�.030
.140
�.060
Momentary
Overload:
1.5
times
power,
.025 �.002
.750
�.060
�.002
815
Ω
chip
resistor
in the application.
Therated
film
isMeg
measured
at the
center
of
the
0.010 Ω 12mm
0.033 Ω 5% Ao
0.75 Ω
-15�C
toΩ+25�C.
600 �temperature
1.5 MG+
4,000
75
N/A/ Ag
70
MG716
Sn
Cu
solder
alloys.
Momentary
Overload:
1.5
rated
power,
1.0
2,000
750
400
50
26 Meg standard
MG715
Type
2 + times
∆R
±810
(0.5%
0.0005
ohm)
�800.20
ppm/�C
from
+25�C3.30
to +105�C,
�.76)
(3.56
MG5
.240
�.030
�.76) or.040
(3.56
�.05)
(.64
�1.52)
(25.40
Ao
�.002
1.000
�.050
(19.05
�1.52)
�.05)
(.64
∆R
±
(0.5%
0.0005
ohm)
for
seconds,
62Sn
/
36Pb
/
2Ag,
96.5Sn
/
3.5Ag,
imum
continuous
operating
voltage
for
5
seconds.
Extended
0.473”
4.00
Ω
Bo Ω
0.015 Ω 5% 0.040 Ω 5% Ao
1.00
Ω ppm/�C from
0.25
∆R
±
(0.5%
+
0.0005
ohm)
for
5
seconds,
2.0 element
4,000
750
200
� 51 Meg is 100
Meg
300at
M the (25.40
MG721
Type
2solder
resistor
and
the
pad
temperature
measured
center
of
the
-200
ppm/�C
to
+50
�.76)
(6.10
�.05)
(1.02
�1.27)
for 5 seconds, ∆R ± (0.5% + 0.0005 ohm)
�.030
.140
�.030 .040
Range
.710
5.00 Ω
.025 �.002
�.002
1.000
�.060 .240
0.020Type
Ω 5%
Ω 2% -15�C
1.50 Ω Megohms,
0.30toΩ+25�C.
Insulation
Resistance:
10,000
min.
1: 0.050
DC
Voltage
standard
Sn
/ Agbelow).
/(18.03
Cu �.050
solder
alloys.
Momentary
Overload:
times
rated
2,000(point
75
Meg
225
17
MG717
Type
2in
600 �power,
1.5 Temperature:
4,000
750
Meg source
N/AM
70 Meg
MG716
® the
Ko signifies
tape thickness
and dimension
�.76)
(6.10
to
+150°C
Operating
-55°C
termination
pad
X1.5
recommended
circuit
layouts
shown
Maximum
�.76) (1.02
(3.56
.140 �.030
�1.27)
�.05)
Caddock's
Micronox
resistance
films
are
the
of
Preconditioning
for
Power
and
Voltage
Ratings
�.05)0.025
(.64�.002
�1.52)
(25.40
.025
2.000 �.080
KoΩsignifies
tape thickness
and
dimension
7.50 Ω
0.075
5%
Ω 2% Ao
2.00 Ω
0.33
Ω
to
+150°C
Operating
2.5 Temperature:
750
1.5
K
200 Meg
10,000
N/A
N/A
MG725
Type 2-55°C
Ko
signifies
tape thickness
and
dimension
Type
2:
DC
Voltage
or
V
AC
�.76)
(3.56
to
+150°C
Operating
Temperature:
-55°C
for
5
seconds,
∆R
±
(0.5%
+
0.0005
ohm)
Overload/Overvoltage:
5
times
rated
power
�.05)
(.64
�2.03)
(50.80
rms
8.00
Ω
.140
�.030
Ω 5%
ΩResistance:
0.030 Insulation
2.50 Ωvoltage
0.40
Ω 10,000
�.030
.240
through
temperature
ofPrecision
the chip resistor
(atVoltage
the
center
of chip)
should
not exceed
.025
1.500
�.080
.040 �.002
.710 150°C
�.050
�.002
the
MG2,000
Resistors'
outstanding
All
power
ratings
and 0.10
maximum
operating
ratings
Megohms,
min.
2.0Certain
6,000
1 K� are
150
N/AM patents,
N/A
MG720
MGType
815 1.5
600
75
17
Meg Ordering
Type
2 High
MG717
hole
Ordering
Measurement
Note:
All
measurements
are
products
shown
in750
this catalog
covered
byMeg
one or225
more
there
also
patents
�.76)
(3.56
Physical
Size
10.0
Ω max.240
�.030
�.76)
(6.10
0.15 Ω voltage 0.50
3.00 Ω.512”
(.64pending.
�.05)
�2.03)
(38.10
Ωto exceed
�.002
.040
1.500 �.080
.512”
arbor
hole
�1.27) are
�.05)
(18.03
(1.02
with
applied
notOverload/Overvoltage,
1.5arbor
times
Measurement
Note:
All
measurements
are
Ordering
Physical
Size
(13mm)
Range
�R pre3.0 Temperature:
1,000
500 �. 77are
250 Meg
6,000
750 M
Meg Information:
KoResistance
signifies tape
thickness ratings
and dimension
MG730
the temperature
range
of
the
application
Type
2-55°C
.512”
arbor hole
are
for
continuous
duty.
These
are
based
on
Measurement
Note:
All
measurements
1512
= 0.150”
x 0.120”
to +150°C
Operating
combination
of
performance
features:
Physical
Size
(13mm)
�.76)
(6.10
(1.02
�.05)
(38.10
�2.03)
Overload/Overvoltage:
5
times
rated
power
1512
=
0.150”
x
0.120”
taken
using
Kelvin
connections
per
the
.240
�.030
.140
�.030
Information:
.040
�.002
1.000
(13mm)
�.002
.025
1.500 �.050
�.080
imum continuous operating voltage
for 5 seconds.
2015
= 0.200”
x 0.150”
taken
using
Kelvin
per
1512
4,000 connections
200
100
300
Meg Information:
MG721
Type 2
2.0
6,000
750
1 K� 51
150 Meg
Meg
N/AM
N/A
MG720
2015
= 0.150”
0.200”
x 0.120”
0.150”
�.76)
(6.10
taken
using
Kelvin
connections
per the
the
voltage
levels
applied
during
the
Custom
resistance
values
andnot
non-standard
tolerances
Standard
0.5%manufacturing
max.
.315
�.030
�.76)
(3.56
�.05)
(1.02
(25.40
�1.27)
1.000 �.060
�.002
.040
(.64
�.05)
�2.03)stress
(38.10
Ordering
2520
= 0.250”
x 0.200”
with
applied
voltage
exceed
1.5
times
2015
0.200”
0.150”
Single-resistor
values
asmeasurements
high
as
Sizeto
2015
Size
2520
Size
1512
recommended
connection
.512”
arbor
hole
MegMegohms.
2.6
4,000
1,000
200 10,000
�B 40are
150 Meg
750 M
Type
2locations.
MG731
Measurement
Note:
All
2520
= 0.250”
x 0.200”
Type
1: DC Voltage
Pagemax1 of 2
Physical
Size
Size
2015
Size
2520
Size 1512
recommended
connection
locations.
�.76)
(8.00
(25.40
�1.52)
�.05)
(1.02
1.500
± .125
A
can
be
manufactured
for
high
quantity
applications.
2520
= 0.250”
x 0.200”
.140
�.030
C
(13mm)
.240
�.030
Size
2015
Size
25205 seconds.
Size
1512
recommended
connection
locations.
process
to
provide
for
stable
resistor
performance
even
�.002
.025
2.000
�.080
.040
�.002
1.000
�.050
1512 = 0.150” x 0.120”
imum
continuous
operating
voltage
for
St'd
with
"-15"
rating
N/A
2.5
1.5
K
200
Meg as300
10,000
N/AM
N/A
MG725
(38.10
3.18)
Ao
0.135”
(3.43mm)
0.189”
(4.80mm)
0.271”
(6.88mm)
2.0
4,000 ± connections
750
200
� 51
100
MegasInformation:
MG721
Type
2
Maximum
continuous
operating
voltages
high
taken
using
Kelvin
per
the
Type
2: Ao
DC
Voltage
or0.189”
Vrms
AC
�.76)
(3.56
�.76)
(6.10
.240
�.030
Please
contact
Caddock
Applications
Engineering.
�.05)
(.64
�2.03)
(50.80
0.135”
(3.43mm)
(4.80mm)
0.271” (6.88mm)
�.05)
(1.02
(25.40
�1.27)
�.002
.040
2.000
�.080
Certain
products
shown
in
this
catalog
are
covered
by
one
or
more
patents,
there
are
also
patents
pending.
2015
=
0.200”
x
0.150”
CC
2520
FC
0.10
1%
under
momentary
overload
conditions.
10,000
1,000
750 � 178 Meg 300 Meg 1,000
M
MG735 3.6
0.135”
(3.43mm) 0.189” (4.80mm) 0.271” (6.88mm)
2
CC
FC
-- 0.10
--2520
1%
Type
1:Ao
DC
Voltage
�.76)
(1.02
�.05)
= 0.250”
x 0.200”
Extended
max.
Bo Range
0.167”
(4.24mm)
0.209”
0.216”
(5.49mm)
48,000
volts
("-15"Type
ratings).
.240
�.030
Size(5.31mm)
2015 0.8%
Size
2520
Size
1512
recommended
connection
locations.
CCM2520
2520(50.80
FC�2.03)
0.10(6.10
1%
.140
�.030
�.002
.040
1.500
�.080
�.002
.025
2.000
�.080
Bo
0.167”
(4.24mm) 0.209”
(5.31mm)
0.216” (5.49mm)
Resistance
Overload/Overvoltage,
�R
immediate
engineering
assistance
in Range
developing
Low
TC
3.0
1,000
500
� 77
6,000
750
Meg 250
MG730 2.5
750
1.5 K
200 Meg
10,000
N/A For(38.10
N/A
MG725
Type 2
Maximum
operating
voltages
60%
higher
than
thematched
values
�.76)
Bo
0.167”
(4.24mm)
(5.31mm)
0.216”
(5.49mm)
Tolerance:
.315
�.030
Type
2:
DC
Voltage
or0.209”
V
ACRatio
�.76) (1.02
(3.56
�.05)
�2.03)
.040
1.500 �.060
�.05)
(.64�.002
�2.03) (6.10
(50.80
Tolerance:
C standard
Ko
0.037”
(0.94mm)
(2.21mm)
DIMENSIONS
IN INCHES
(MILLIMETERS)
Ao
0.135”
(3.43mm) 0.087”
0.189”rms
(4.80mm) 0.066”
0.271” (1.68mm)
(6.88mm)
Fig.
1A: Kelvin
layout
Overvoltage
capabilities
of
150%
of
64 MegC Type
3.6
6,000
1,000
300 �
300 working
Meg
1,500
M
TypeAND
2recomMG740
1B:
Kelvin
layout
C CKoApplications
C 0.050Ω
CC Fig.
±- 5%
below
Tolerance:
�.76)
(8.00
0.037” (0.94mm) 0.087”
(2.21mm)
0.066”
(1.68mm)
Thermal
Shock:
Mil-Std-202,
Method
high
voltage
resistor
sets,
call
or
write
our
Engineering
and we
will
(1.02
�.05)
�1.52)
(38.10
CC
2520
FC
0.10
1%
Type
CC
Standard
0.5%
max.
±
5%
below
0.050Ω
�.030
.315
listed
in
the
table
may
be
specified
by
adding
"-15"
to107,
the
.240
�.030
1.000
�.060
�.002
.040
B
Ko 0.037”
(0.94mm) 0.087”
(2.21mm)
0.066” (1.68mm)
�.002
.040
1.500
�.080
1.500
±
.125
A
±
2%
0.050Ω
to
0.099Ω
Type
CC
5%
below
0.050Ω
C
40
2.6
4,000
200 � (except
Meg
750 M
MG731
Range
Overload/Overvoltage,
�R
mended
for
values
below
0.20Ω
Carrier
Tape and
pocket
dimensions:
3.0
1,000values,
500
250
Meg ratings).
M
6,000
77 Meg 150
MG730
Type
2 and
voltages
models
"-15"
Bo ΔR
recommended
higher
0.167”
(4.24mm)
0.209”
(5.31mm)
0.216” (5.49mm)
± 2%�.030
0.050Ω
to
0.099Ω
Style:
(8.00
X
XResistance
�.76)
(6.10
.240
(25.40
�1.52)
�.05)
(1.02
A
0.25%
max.
Cond.
C,
Carrier
Tape and
pocket
dimensions:
(1.02
�.05)
(38.10
�2.03)
3.18) all
(38.10 ± for
.040
�.002
3.000 for
�.100
be
pleased
to
offer
the
best
solution
from
our
high
voltage
resistor
product
1%�.76)
0.10Ω
and
above
Style:
±
2%
0.050Ω
to
0.099Ω
Tape
is 12mm
Carrier
Tape
(8mmN/A
pitch)
model
number
(Example:
MG750-15).
Note
that
overload
A
15,000
1,000
1
K
500
Meg
1,500
M
288
Meg
MG745 5.0
Type
2
Carrier
Tape
and
pocket
dimensions:
±
1%
0.10Ω
and
above
St'd
with
"-15"
rating
FC
or
WB
Tolerance:
Tape is 12mm Carrier Tape (8mm pitch)
Style:
�.76)
(6.10
A
�.05)
(1.02
�2.54)
(76.20
Derating
Curve:
C
resistance
values.
FC or WB
±
1%
0.10Ω
and
above
100
.240
�.030
Ko
Standard
0.5%
max.
0.037”
(0.94mm)
0.087”
(2.21mm)
0.066”
(1.68mm)
Tape
is
12mm
Carrier
Tape
(8mm
pitch)
�.030
.315
.040
2.000
1.000 �.080
�.060 and
�.002 ratings
.040 �.002
C
Type
CC
Resistance
Tolerances
± 5%overvoltage
below 0.050Ω
capabilities.
or WB1,000
Moisture
Resistance:
Mil-Std-202,
Method
106,
D
3.6
10,000
750
300
Meg
178
Meg are
MG735
dodeveloping
not apply
to Ratings
the
"-15"
resistors.
40±0.1%.
2.6
4,000
1,000±1.0%
200
150FC
750
MM immediate
Type 2®from
MG731
C � to
Caddock's
Micronox
resistance
films
the
source
for
Power
and
Voltage
Resistor
Value
(Ω) of
�.76)
(6.10
D
.315
�.76)
(8.00
80
�.05)
�2.03)
For
engineering
assistance
in
Low
Ratio
TC
matched
C 5.0
=
Current
connection
�.002
.040
2.125 �.060
(25.40
�1.52)Preconditioning
�.05)
(1.02
Extended
Range
0.8%
max.
± 2%�.030
0.050Ω(1.02
to 0.099Ω
Resistor
Value
(Ω) (50.80
D
Carrier
pocket dimensions:
1,000
400 �X 128resistance
Meg
2,500
10,000
MegX 500Style:
MG750
Full
reel
quantities:
Type 2
See range,
charts
forMavailability
St'd
with
"-15"
ratingTape and
N/A
Resistor
Value
(Ω)
�.76)
(8.00
ΔR
0.4%
max.
A
Temperature
Coefficient,
of
Full
reel
quantities:
�.05)
(1.02
(53.98
�1.52)
DIMENSIONS
INMG
INCHESPrecision
AND (MILLIMETERS)
± 1%
0.10Ω
and
above
Resistance
ranges
for
"-15"
resistors
shown
the
table
are
60for standard
See
charts
for
availability
Tape is 12mmoperating
Carrier
Tape (8mmin
pitch)
.315
�.030
the
Type
Voltage
Resistors'
outstanding
All
power
ratings
and
maximum
voltage
ratings
.240
�.030
�.002
.040
1.500
�.060
S
=
Sense
connection
RATED POWER OR High
�.002
.040
2.000
�.080
high
voltage
resistor(8.00
sets,
call
write
our
Applications
EngineeringMethod
and we
will
or
WB
Full
reelpieces
quantities:
See
charts
forM
1500
per
reel
for
: or
64 Meg 300FC
6,000
300
� 178
Meg
1,500
MG740 3.6
10,000
750
Meg
1,000
Mavailability
MG735
C
Type 2 % 401,000
1500
pieces
per
reel
for CC1512
CC1512
�.76)
VOLTAGE,
Thermal
Shock:
107,
.315 �.030
(6.10
�.76)
(1.02
�.05)
�1.52)
(38.10
.040
3.125 �.060
�.002
(1.02
�.05)to "Standard
�2.03)are
(50.80
80 ppm/°C
inRATED
combination
with
resistance
as
Extended
Range
0.8%
max. on
from
"-15
Min."
Max."
MG750
-100M
- Mil-Std-202,
1%
Load
Life:
1,000
hours
atCC2520
+125°C
atproduct
rated
D
1500
pieces
per
reel
for
CC1512
for
continuous
These
ratings
are
based
pre1000
reel
for
CC2015
and
Type 2
7.5
15,000
1,000
600
� 192 Meg tolerances
750 Meg
3,750
M (Ω)
combination
of
performance
features:
MG780
S
Sduty.
Resistor
Value
be
pleased
to
offer
the
best
solution
from
our
high
voltage
resistor
�.76)
(8.00
1000
pieces
per
reel
for
CC2015
and
CC2520
(79.38
�1.52)
�.05)
(1.02
20
.240
�.030
B
ΔR
0.25%
max.
Cond.
C,
.315
�.030
.040
�.002
3.000
�.100
Full
reel
quantities:
�.002
.040
1.500
�.060
1000
pieces
per
reel
for
CC2015
and
CC2520
See
charts
for
availability
tight
as
±0.1%.
B
voltage,
notShock:
to
exceed
rated
power.
Derating
Curve:
100
5.0
15,000
1 K� 288
1,500 M
MG745 3.6
Model
Number:
Tolerance
Quantities
of
than
250 will
be
in
tape
without
and
64 Meg 500
6,000
300
300 Meg
Type 2 B 01,000
MG740
voltage
levels
applied
during
the
manufacturing
Non-Inductive
�.76)
(6.10
�.76)
(8.00
.315 �.030
capabilities.
�.05)
(1.02
�2.54)
(76.20
Thermal
Quantities
of less
less
willMil-Std-202,
be shipped
shipped
in
tapeMethod
without reel
reel107,
and
(1.02
�.05)Performance
�1.52)stress
(38.10
.040 �.002
4.000 �.120
Single-resistor
high
as
S Meg
S Megohms.
1500 pieces
perthan
reel 250
for CC1512
20,000 values
1,000
80010,000
�125320
1,000275
Meg
5,000 M (101.60
MG785
Type
2as demonstrated
Quantities
of leader
less
than
250
will beMil-Std-202,
shipped
in tape Method
without reel106,
and
80
25
75
175
225
without
tape
at
the
option
of
Caddock.
Moisture
Resistance:
�.76)
(8.00
Type 8.0
MG resistors
have
stability
of 0.01%
�.05)
(1.02
�3.05)
process
to
provide
for
stable
performance
even
without
tape
leader
at resistor
the
option
of and
Caddock.
.315
�.030
Resistor
Value:
Most
models
are
manufactured
with
Caddock's
.240
�.030
Resistance
Range
Load
Life,
�R
1000
pieces
per
reel
for CC2015
CC2520
�.002
.040
2.125
�.060
ΔR
0.25%
max.
Cond.
C,
.040
�.002
3.000
�.100
without
tape
leader
at
the
option
of
Caddock.
AMBIENT
TEMPERATURE,
°C
Maximum
continuous
operating
voltages
as
high
as
60
400
10,000 OR Type 2 B 1,000
MG750 5.0
15,000
1 K� 128
1,500 M
288 Meg 500 Meg 2,500
MG745
�.76)
(8.00
ΔR
0.4%
max.
RATED
POWER
Tape
dimensions
and
materials
will
be
consistent
with
EIA-481-1.
.315
�.030
�.76)
(6.10
�.05)
(1.02
(53.98
�1.52)
.040
�.002
5.000
�.120
�.05)
(1.02
�2.54)
(76.20
per 1,000
hours
inType
extended
load
life400testing
of
standard
:
Tape dimensions
and
materials
will
be consistent
withresistive
EIA-481-1.
under
momentary
overload
conditions.
Non-Inductive
Design
which
uses
a
serpentine
Quantities
of
less
than
250
will
be
shipped
in
tape
without
reel
and
2
Meg
10.0
25,000
1,000
1
K
1,250
Meg
6,250
M
RATED VOLTAGE,
% 40
MG810
Moisture
Resistance:
Mil-Std-202,
Method
106,
Tape
dimensions
and materials
will
be consistent
with
EIA-481-1.
�.76)be (1.02
Standard
0.5% max.
Reels
will
be
with
label
containing
Caddock
logo,
part
48,000
volts
("-15"
ratings).
MG750
-100M
-aa1%
�3.05) (8.00
(127.00
Note:
Actual
width
of current
trace
is based on magnitude of current. Point of
connection
should
the�.05)
area shown.
.315
.315 �.030
�.030 in
.040
3.125
Reels
will
be marked
marked
with
label
containing
Caddock
logo,
part
�.002
.040 �.002
2.125 �.060
Dimensions
in
(millimeters)
Load
Life:
1,000
at
+125°C
at
rated
without
tape
at with
the option
ofcontaining
Caddock.
resistance
range
values.
7.5
15,000
600 � 192
Maximum
operating
voltages
60%
higher
than
the
values
MG780
20
5.0
1,000
400
500 Meg
Meg 3,750
2,500 M
M
10,000
128 Meg 750
Dimensions
in inches
inches
and
(millimeters)
Reels
will
beleader
marked
a hours
label
Caddock
logo,
partin
pattern
that
provides
for
neighboring
lines
to
carry
current
MG750
Typeand
2
number,
resistor
value,
tolerance,
packaging
date,
and
quantity.
�.76)
(8.00
�.76)
(8.00
ΔR
0.4%
max.
(79.38
�1.52)
�.05)
(1.02
�.05)
(1.02
(53.98
.040
�.002
6.000
�.120
.350
�.040
Dimensions
in
inches
and
(millimeters)
number,
resistor
value,
tolerance,
packaging
date,
and
quantity.
Overvoltage
capabilities
of
150%
of 384
standard
Model Number:
Tolerance
St'd dimensions
with
"-15"
rating
0.8%
max.
30,000
1,000
Meg 10,000 M (152.40 �3.05)
Meg 2,000working
MG815
Type
2 LTD
voltage,
not
to
rated
power.
Tape
andexceed
materials
will
be
consistent
with
0 performance
number,
resistor
value,
tolerance,
packaging
andEIA-481-1.
quantity.
RHOPOINT
COMPONENTS
LTD. 1 Khas
RHOPOINT
COMPONENTS
Tel:
+44date,
(0)1883
717988
(1.02
in the
table
may
be
specified
by
adding
"-15"
to
the
(8.89
This15.0
exceptional
been
proven
through
opposite
directions,
thereby
achieving
maximum
cancellation
.315
�.030
.315�1.02)
�.030
.040
�.002
75 values,
125
175 (except
225 275 "-15" ratings). 4.000
.040�.05)
3.125 �.120
�.060listed
�.002
Load
1,000
hours
at
+125°C
at
rated
voltages
for15,000
all
models
Reels
will Life:
be marked
with a label
containing
Caddock
logo,
part
8.0Road,
20,000
800
MG785
Type25
Type
22 and
192 Meg 1,000
7.5
1,000
600
� 320
750 Meg 5,000
3,750 M (101.60 �3.05) (8.00
Holland
Road
MG780
Resistor
Value:
Holland
Hurst
Green,
Fax:
+44
(0)1883
712938
�.76)
�.76)
(8.00
Extended
Range
0.8%
max.
(1.02
Dimensions
inuse
inches
and
(millimeters)
(79.38 �1.52)model
�.05)
(1.02 �.05)
number
(Example:
MG750-15).
Note
that
overload
AMBIENT
TEMPERATURE,
°C
many
years
of
in
equipment
that
demands
the
highest
Resistance
Range
Load
Life,
�R
of
flux
fields
over
the
entire
length
of
the
resistor.
This
number,
resistor
value,
tolerance,
packaging
date, and quantity.
Hurst
Green
voltage,
not
to
exceed
rated
power.
e-mail:
[email protected]
Oxted,
Surrey,
RH8
9AX
ModelsCOMPONENTS
with
low inductance
construction
are±0.1%.
in shaded areas.
.315
�.030
.315overvoltage
�.030 .040
5.000
Resistance
Tolerances
from
±1.0%
RHOPOINT
LTD
.040 �.002
�.002 ratings
4.000 �.120
�.120and
do web:
not
apply
the0.5%
"-15"
reliability
stability,
including
TWT
X-ray
efficient
construction
is to
accomplished
without
Type 2
400
10.0
25,000
1 K� to
1,250
Solderable
Leads
MG810
RHOPOINT
COMPONENTS
LTD
Oxted,
Surrey,
RH8
9AX
8.0+44and
20,000
1,000
800
1,000 Meg
Meg 6,250
5,000 M
M
320 Meg amplifiers,
MG785
web:
www.rhopointcomponents.com
(8.00
Standard
max. resistors.
Phone:
(0)
1883
717988
www.rhopointcomponents.com
�.76) non-inductive
(8.00 �.76)
(1.02
(127.00
RHOPOINT
COMPONENTS
LTD
�.05)
(1.02 �.05)
(101.60 �3.05)
�3.05)
Holland
Road,
Hurst
Green,
Resistance
Range
Life,
Models
with
Caddock's
Non-Inductive
Resistance
Pattern
are in non-shaded
areas.
Temperature
Coefficient,
for
standard
resistance
range,
of
Holland
Road,
Hurst
Green,
Resistance
ranges
for
"-15"
resistors
shownLoad
inSilicone
the�Rtable
are
systems,
geophysical
instruments,
and
medical
electronics.
derating
of
any
performance
advantages.
Fax:
+44
(0)
1883
712938
e-mail:
[email protected]
Encapsulation:
High
Temperature
Conformal.
.315�.040
�.030 .040
Holland
Road,
Hurst
Green,
�.002
6.000
�.120
.350
.040
�.002
5.000
�.120
Oxted,
Surrey,
RH8
9AX
RHOPOINT
COMPONENTS
LTD.
St'd
with
"-15"
rating
0.8%
max.
15.0
30,000
2,000
M (152.40 �3.05) (8.00 �.76) (1.02 �.05)
MG815
Tel:0.5%
+44 max.
(0)1883
717988
Type 2 LTD
400 Meg tolerances
10.0
25,000
1,000
1 K 384
1,250 Meg 10,000
6,250as
M
MG810
Oxted,
Surrey,
RH8
9AX
80 ppm/°C
in
combination
with resistance
Standard
RHOPOINT
COMPONENTS
(8.89 �1.02)
IL-110.019
"-15 Min."
to "Standard
Max."
(1.02 �.05)
(127.00 �3.05)from
Oxted,
Surrey,
RH8
9AX
web:
www.rhopointcomponents.com
Phone:
+44
(0)
1883
717988
Holland
Road
Fax:
+44
(0)1883
712938
27.1 IL106.0802
web:
www.rhopointcomponents.com
Phone:
+44
(0)
1883
717988
Holland
Road,
Hurst
Green,
Extended Range
0.8%
max.
Applications
Engineering
Sales and
Corporate
Office
tight
as
±0.1%.
.040 �.002
6.000 �.120Non-Inductive
.350 �.040
web:
www.rhopointcomponents.com
Phone:
+44
(0)
1883
717988
Hurst
Green
Resistance
Fax:
+44
(0)
1883
712938
Dimensions
in inches
and (millimeters)
e-mail:
[email protected]
St'd with "-15"
rating
0.8%
max.
e-mail:
[email protected]
Performance
Max.
15.0
30,000
1,000
1 K 384 Meg
2,000 Meg 10,000 M (152.40
MG815
Type 2
Fax:
(0)
1883
712938
e-mail:
[email protected]
Overload
Model +44
WattDielect.
�3.05) (8.89 �1.02) (1.02 �.05)
Models
with
low
inductance
construction
are in shaded
areas.
Oxted,
Surrey,
RH8
9AX
17271
North
Umpqua
Hwy.
1717 Chicago Avenue
Fax:
+44
(0)
1883
712938
e-mail:
[email protected]
Oxted,
Surrey,
RH8
9AX
Continuous
web:
www.rhopointcomponents.com
Type
MG
resistors
have
demonstrated
stability
of
0.01%
Standard
Extended
-15
Solderable
Leads
Rating Strength Min.
No.
age (0)
A
B
C
Most
models
are
manufactured
with
Caddock's
Extended
Range
0.8% max.
web:
www.rhopointcomponents.com
Phone:
+44
1883
717988
27.1
IL106.0802
Oper.
Volt.
Resistance
Tolerance:
Roseburg,
Oregon
97470-9422
Riverside,
California
92507-2364
Max. are in
Max.
Min.
Models
with
Caddock's
Non-Inductive
Resistance
Pattern
non-shaded areas.
27.1
IL106.0802
per +44
1,000
hours
extended
load life
testing
[email protected]
standard
27.1resistive
IL106.0802
Models
with 712938
lowin
inductance
construction
are
ine-mail:
shaded
areas.
Encapsulation:
High
Temperature
Silicone
Conformal.
Design
which
uses
a serpentine
Fax:
(0)496-0700
1883
e-mail:
[email protected]
•Non-Inductive
web:
Phone:
(541)
Phone:
(951)
788-1700
�.015 .025 �.002
.094www.caddock.com
.313 �.020
Resistance
Range
Tolerance
Solderable
Leads
IL-110.019
0.5
600 values.
200 �
5 Meg
N/A
750
N/A
MG650
Type 1
resistance
range
�.38)
(2.39
�.51)
�.05)
(7.95
(.64
For
Caddock
Distributors
listed
by
country
see
caddock.com/contact/dist.html
Fax: (541)
496-0408
(951)
369-1151
pattern that provides for neighboring lines toFax:
carry
current
in
Models
with Caddock's Non-Inductive Resistance Pattern are in non-shaded areas.
27.1
IL106.0802
Applications
Engineering
Sales
and
Corporate
Office
Encapsulation:
High
Temperature
Silicone
Conformal.
Standard
�1%,
�0.5%,
�0.25%,
�0.1%
�.025
.109
.025 �.002
.313 �.030
This
performance
been
proven
through
opposite directions,
thereby achieving maximum
cancellation
Type
1
0.5exceptional
600 Hwy.
750
200has
�
8 Meg
N/A
N/A
MG655
17271
North
Umpqua
1717 •
Chicago
Avenue
(7.95 �.76) (2.77 �.64)
(.64 �.05)
©
2004 Caddock
Electronics,
Inc.
28_IL110.1004
Hurst
Green
•
Surrey
RH8
9AX
•
UK
many years
of 97470-9422
use in equipment that demands the highest .500 �.030
St'd with
"-15" length
rating
�1% 92507-2364
of .094
flux�.015
fields
over the
entire
of the
This
Applications
Engineering
Sales
andresistor.
Corporate
Office
Roseburg,
Oregon
Riverside,
California
.025 �.002
Type 1 including
1,000stability,
750
400 �TWT
Meg
N/AX-ray(12.70 �.76) (2.39 �.38)
N/A amplifiers,
MG660 0.6 and
Email • [email protected]
reliability
(.64 �.05)
efficient
non-inductive
construction
without
17271
North
Hwy.
1717�1%
Chicago
Avenue
e-mail:[email protected]
• web: www.caddock.com
Phone:
(541)Umpqua
496-0700
Phone:
(951) 788-1700
Extended
Range is accomplished
�.015
Roseburg,
97470-9422
California
92507-2364
For
Caddock
Distributors
listed by country
see.094
caddock.com/contact/dist.html
Web •Riverside,
www.rhopointcomponents.com
+44
(0)
870
1188
.750Tel:
�.030
.025
Fax:
(541)0.8Oregon
496-0408
Fax: (951)
369-1151
systems,
geophysical
instruments,
and
derating
of 608
any�.002
performance advantages.
600
� medical
2,000
750
20electronics.
Meg
N/A
N/A
MG680
Type
1
�.38)
(2.39 www.caddock.com
(19.05 �.76)• web:
(.64 �.05)
e-mail: [email protected]
Phone: (541) 496-0700
Phone: (951) 788-1700
Temperature Coefficient:
.094
�.015 .025 �.002
© 2004
Caddock
Electronics, Inc.
28_IL110.1004
�.040 see
For�Caddock
Distributors
listed by1.000
country
caddock.com/contact/dist.html
Fax:
(541)
496-0408
Fax: (951)
369-1151
1.0
4,000
750
800
50 Meg
N/A
N/AResistance
Type 1
MG710
(2.39 �.38)
Resistance
Dimensions
in inches
and (millimeters)
(25.40 �1.02)
(.64 �.05)
Max.
TC Specifications
Overload Dielect.
Model WattRange
Now with Extended Resistance Range to 10,000 Megohms and Additional Models
Temperature
Coefficient
as tightResistance
as 80 ppm/°C, Range
Combined
Excellent
Long-Termand
Stability
and Precision
Tolerances.
Now with
Extended
towith
10,000
Megohms
Additional
Models
•
•Temperature Coefficient as tight as 80 ppm/°C, Combined with Excellent Long-Term Stability and Precision Tolerances.
•
•
••
•
•
• Style FC - Flip Chip Version
••
•• Location
Location for
for Sense
Sense (Potential)
(Potential) Connection:
Connection:
for
Sense
(Potential)
Connection:
• Location
• Location for Sense (Potential) Connection:
•
N
N
Specifications:
RATED LOAD, %
Style FC Information
Derating Curve For
Application
General
for General
Type CC
- Style
General
General Information
Information for
for Type
Type CC
CC -- Style
Style
Specifications:
General
Information
for
Type
CC
Style
Specifications:
Specifications:
FC
FC
FC
FC
and
and
and
and
Style
Style
Style
Style
WB
WB
WB
WB
--
Specifications:
Chip
Resistors
Chip
Resistors
Chip
Resistors
Specifications:
Chip Resistors
Specifications:
Type MG Precision High Voltage Resistors
Now with Extended Resistance Range to 10,000 Megohms and Additional Models
Temperature Coefficient as tight as 80 ppm/°C, Combined with Excellent Long-Term Stability and Precision Tolerances.
Type MG Precision High Voltage Resistors
• Recommended Circuit Board Layout
• (current and sense connections):
•
Design Assistance in Developing High Voltage Resistor Sets with
Low TC Tracking.
Now with Extended Resistance Range to 10,000 Megohms and Additional Models
Design Assistance in Developing High Voltage Resistor Sets with
Temperature Coefficient as tight as 80 ppm/°C,
Combined
with Excellent Long-Term Stability and Precision Tolerances.
Low
TC Tracking.
•
•
••
•
Ordering Information
Ordering Information
•
•
•
•
UK & Ireland
Distributors
RHOPOINT COMPONENTS LTD
RHOPOINT COMPONENTS LTD.
RHOPOINT
RHOPOINT COMPONENTS
COMPONENTS LTD
LTD
RHOPOINT
COMPONENTS
LTD
Specifications:
RHOPOINT
COMPONENTS
LTD
RHOPOINT
COMPONENTS
LTD.
CADDOCK
CADDOCK
CADDOCK
Specifications: