MP930-1.00-1% Caddock Electronics Inc, MP930-1.00-1% Datasheet

RESISTOR 1.00 OHM 30W 1% TO-220

MP930-1.00-1%

Manufacturer Part Number
MP930-1.00-1%
Description
RESISTOR 1.00 OHM 30W 1% TO-220
Manufacturer
Caddock Electronics Inc
Series
Kool-Pak®MP900r
Datasheet

Specifications of MP930-1.00-1%

Tolerance
±1%
Temperature Coefficient
-20/ +80ppm/°C
Resistance (ohms)
1
Power (watts)
30W
Composition
Thick Film
Features
Current Sense, Non-Inductive
Size / Dimension
0.410" L x 0.125" W (10.41mm x 3.18mm)
Height
0.640" (16.26mm)
Lead Style
Through Hole
Package / Case
TO-220-2
Resistance In Ohms
1.00
Case
TO-220
Resistance
1 Ohms
Power Rating
30 Watts
Termination Style
Radial
Voltage Rating
250 Volts
Operating Temperature Range
- 55 C to + 150 C
Dimensions
10.41 mm W x 16.26 mm L x 3.18 mm H
Lead Spacing
5.08 mm
Product
Thick Film Resistors Leaded
Brand/series
Kool-Pak®
Lead Pitch
0.200 in. +⁄- 0.010 in.
Length, Lead
0.500 in. +⁄- 0.050 in.
Material, Element
Thick Film
Package Type
TO-220
Power, Rating
30 W
Resistance, Thermal, Junction To Case
4.17 °C⁄W
Special Features
Heat Sink
Temperature, Operating, Maximum
150 °C
Temperature, Operating, Minimum
-55 °C
Termination
Radial
Thickness
0.125 in. +⁄- 0.010 in.
Voltage, Rating
250 VDC
Width
0.410 in. +⁄- 0.010 in.
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Lead Free Status / RoHS Status
Lead free / RoHS Compliant, Lead free / RoHS Compliant
Other names
MP930-1.00F

Available stocks

Company
Part Number
Manufacturer
Quantity
Price
Part Number:
MP930-1.00-1%
Manufacturer:
Caddock
Quantity:
12 000
Part Number:
MP930-1.00-1%
Manufacturer:
CADDOCK
Quantity:
20 000
© 2004 Caddock Electronics, Inc.
Applications Engineering
17271 North Umpqua Hwy.
Roseburg, Oregon 97470-9422
Phone: (541) 496-0700
Fax: (541) 496-0408
Low Cost
an Exposed Ceramic Heat Dissipating Mounting Surface
Use your thermal design experience with power semiconductors in TO-126, TO-220,
and TO-247 style power packages to help you get the most out of this unique family of
power resistors. The thermal design issues are the same where power handling
capability is based on the case temperature which is maintained in your design.
Power Film Resistors
MP915
MP916, MP925, and MP930
MP9100
15 Watts at +25°C Case Temperature,
Exposed Ceramic Heat Dissipating Mounting Surface.
Resistance Range of 0.020 ohm to 1 K.
Non-Inductive Design.
Up to 30 Watts at +25°C Case Temperature,
Exposed Ceramic Heat Dissipating Mounting Surface.
Resistance Range of 0.010 ohm to 100 K.
Non-Inductive Design.
100 Watts at +25°C Case Temperature,
Exposed Ceramic Heat Dissipating Mounting Surface.
Resistance Range of 0.050 ohm to 100 ohm.
Non-Inductive Design.
TO-126 Style Power Package
Heat Sink Mountable Design featuring
TO-247 Style Power Package
MP900 and MP9000 Series Kool-Pak
CAD
For Caddock Distributors listed by country see caddock.com/contact/dist.html
TO-220 Style Power Package
e-mail: caddock@caddock.com • web: www.caddock.com
DOC
derated to zero at +150°C.
derated to zero at +175°C.
derated to zero at +150°C.
K
TO-126, TO-220 and TO-247 Style
Exposed Ceramic
Heat Dissipating
Power Resistor
Mounting
Surface
New
with
.
MP915, MP925, and MP930
Standard Resistance Values:
MP916 Standard Resistance Values:
Tolerance MP916 ±5% Standard (20% is available).
0.010 Ω 5%
0.015 Ω 5%
Tolerance MP915, MP925, and MP930 ±1% Standard - except
as noted. (5% and 20% are available for most resistance values).
For custom resistance values and tolerances contact
applications engineering.
Ordering Information:
Packaging:
resistors are packaged in plastic shipping tubes,
50 pieces per tube. These resistors are available
in a 50 piece minimum quantity and in full tube
quantity increments (i.e. 50, 100, 150, etc.).
MP9100 resistors are packaged in plastic shipping
tubes, 25 pieces per tube.
Construction of MP900 and
MP9000 Series:
The MP900 and MP9000 Series Kool-Pak
Film Resistors are constructed with Caddock's
Micronox
substrate. The terminal attachment and resistance
element geometry are configured to provide
outstanding non-inductive performance.
ceramic substrate is positioned in the molded
package such that the resistor element and terminal
a t t a c h m e n t a r e a s o n t h e s u b s t r a t e a r e
encapsulated in the molded body with the other side
of the ceramic being exposed flush with the back
mounting surface of the device. This construction is
covered by one or more issued patents, also
patents pending.
MP9100 Standard Resistance Values:
Tolerance MP9100 ±1% Standard.
0.050 Ω
0.075 Ω
0.020 Ω 5%
0.025 Ω 5%
0.030 Ω 5%
0.033 Ω 5%
0.040 Ω 5%
0.050 Ω
0.075 Ω
0.10 Ω
0.15 Ω
0.20 Ω
0.25 Ω
0.30 Ω
0.10 Ω
0.15 Ω
0.20 Ω
0.25 Ω
0.30 Ω
0.33 Ω
Model Number:
®
Resistor Value:
0.40 Ω
0.50 Ω
0.75 Ω
1.00 Ω
1.50 Ω
2.00 Ω
2.50 Ω
3.00 Ω
resistance film fired onto a flat ceramic
0.33 Ω
0.40 Ω
0.50 Ω
0.75 Ω
1.00 Ω
1.50 Ω
2.00 Ω
2.50 Ω
3.00 Ω
3.30 Ω
4.00 Ω
5.00 Ω
MP915, MP916, MP925, MP930
MP915 - 50.0 - 1%
7.50 Ω
8.00 Ω
10.0 Ω
12.0 Ω
15.0 Ω
20.0 Ω
25.0 Ω
27.0 Ω
30.0 Ω
33.0 Ω
40.0 Ω
47.0 Ω
3.30 Ω
4.00 Ω
5.00 Ω
7.50 Ω
8.00 Ω
10.0 Ω
12.0 Ω
15.0 Ω
Riverside, California 92507-2364
Sales and Corporate Office
50.0 Ω
56.0 Ω
75.0 Ω
100 Ω
120 Ω
150 Ω
200 Ω
250 Ω
300 Ω
330 Ω
400 Ω
470 Ω
®
20.0 Ω
25.0 Ω
27.0 Ω
30.0 Ω
33.0 Ω
40.0 Ω
47.0 Ω
50.0 Ω
Phone: (951) 788-1700
1717 Chicago Avenue
Fax: (951) 369-1151
500 Ω
560 Ω
750 Ω
1.00 K
1.50 K
2.00 K
2.50 K
3.00 K
3.30 K
4.00 K
5.00 K
7.50 K
56.0 Ω
75.0 Ω
100 Ω
Tolerance
28_IL102.1004
Page 1 of 2
10.0 K
15.0 K
20.0 K
25.0 K
30.0 K
33.0 K
40.0 K
47.0 K
50.0 K
56.0 K
68.0 K
75.0 K
82.0 K
100 K
®
Power
The
The

Related parts for MP930-1.00-1%

MP930-1.00-1% Summary of contents

Page 1

... Tolerance MP916 ±5% Standard (20% is available). 0.010 Ω 5% 0.015 Ω 5% MP915, MP925, and MP930 Standard Resistance Values: Tolerance MP915, MP925, and MP930 ±1% Standard - except as noted. (5% and 20% are available for most resistance values). 0.020 Ω 5% 0.33 Ω 7.50 Ω 50.0 Ω ...

Page 2

... 100 150 175 CASE TEMPERATURE, ° MP915, MP916, MP925, MP930 Max. Temperature 150°C Max B - MP9100 Max. Temperature 175°C Max The thermal design should satisfy the following equation: Case Temperature ( [Thermal Resistance (R θ power applied (Watts)] ≤ T operating temperature range of the application. ...

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