MP9100-401% - Caddock Electronics, Inc.

Sales and Corporate Ofce

1717 Chicago Avenue

Riverside, California 92507-2364

Phone: (951) 788-1700

Fax: (951) 369-1151

Applications Engineering

17271 North Umpqua Hwy.

Roseburg, Oregon 97470-9422

Phone: (541) 496-0700

Fax: (541) 496-0408

CAD KDOC

e-mail: caddock@caddock.com • web: www.caddock.com

For Caddock Distributors listed by country see caddock.com/contact/dist.html

ELECTRONICS, INC.

28_IL

MP900 and MP9000 Series Kool-Pak®

Power Film Resistors TO-126, TO-220 and TO-247 Style

15 Watts at +25°C Case Temperature, derated to zero at +150°C.

Exposed Ceramic Heat Dissipating Mounting Surface.

Resistance Range of 0.020 ohm to 1 K.

Non-Inductive Design.

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.

•

MP915

TO-126 Style Power Package

Up to 30 Watts at +25°C Case Temperature, derated to zero at +150°C.

Exposed Ceramic Heat Dissipating Mounting Surface.

Resistance Range of 0.010 ohm to 100 K.

Non-Inductive Design.

•

MP916, MP925, and MP930

TO-220 Style Power Package

100 Watts at +25°C Case Temperature, derated to zero at +175°C.

Exposed Ceramic Heat Dissipating Mounting Surface.

Resistance Range of 0.050 ohm to 100 ohm.

Non-Inductive Design.

•

MP9100

TO-247 Style Power Package

Low Cost Heat Sink Mountable Design featuring

an Exposed Ceramic Heat Dissipating Mounting Surface

The MP900 and MP9000 Series Kool-Pak® Power

Film Resistors are constructed with Caddock's Micronox®

resistance lm red onto a at ceramic substrate. The terminal

attachment and resistance element geometry are congured

to provide outstanding non-inductive performance. The

ceramic substrate is positioned in the molded

package such that the resistor element and terminal

attachment areas on the substrate are

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.

For custom resistance values and tolerances contact

applications engineering.

Construction of MP900 and

MP9000 Series:

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

0.33 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

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

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

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

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).

0.050 Ω

0.075 Ω

0.10 Ω

0.15 Ω

0.20 Ω

0.25 Ω

0.30 Ω

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

7.50 Ω

8.00 Ω

10.0 Ω

12.0 Ω

15.0 Ω

MP9100 Standard Resistance Values:

Tolerance MP9100 ±1% Standard.

20.0 Ω

25.0 Ω

27.0 Ω

30.0 Ω

33.0 Ω

40.0 Ω

47.0 Ω

50.0 Ω

56.0 Ω

75.0 Ω

100 Ω

Ordering Information:

MP915 - 50.0 - 1%

Model Number:

Resistor Value:

Tolerance

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

0.010 Ω 5%

0.015 Ω 5%

MP916 Standard Resistance Values:

Tolerance MP916 ±5% Standard (20% is available).

Packaging: MP915, MP916, MP925, and MP930

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.). The MP9100

resistors are packaged in plastic shipping tubes, 25

pieces per tube.

New

Power Resistor

with

Exposed Ceramic

Heat Dissipating

Mounting

Surface.

Page 1 of 2

Recommended limitation of use: Caddock does not recommend the MP900 and MP9000 Series Resistors for use in military or space applications.

These products are recommended by Caddock for use only in commercial/industrial applications. Caddock has qualied these devices, for their

intended use, to perform according to catalog specications. Caddock does not maintain a military and/or space level reliability program for these

devices. Caddock does not provide support for use of these devices in military and space applications. These products have matte tin plated leads

(with 100% tin plating), there is no other lead nish offered for the MP900 and MP9000 Series Resistors. Any use of this product in a military program,

against this recommended limitation of use, will be completely supported by the customer program design activity and component engineering activity based

on their complete evaluation and testing, there will be no support provided by Caddock for this use. Space equipment programs (both the engineering

phase and the ight phase) must only use selected Caddock products that have been purchased in accordance with NASA GSFC specications.

102.0507LOU-

ELECTRONICS, INC.

Sales and Corporate Ofce

1717 Chicago Avenue

Riverside, California 92507-2364

Phone: (951) 788-1700

Fax: (951) 369-1151

Applications Engineering

17271 North Umpqua Hwy.

Roseburg, Oregon 97470-9422

Phone: (541) 496-0700

Fax: (541) 496-0408 e-mail: caddock@caddock.com • web: www.caddock.com

For Caddock Distributors listed by country see caddock.com/contact/dist.html

100 175

100

POWER RATING, %

150

A - MP915, MP916, MP925, MP930 Max. Temperature, TMax = 150°C

B - MP9100 Max. Temperature, TMax = 175°C

CASE TEMPERATURE, °C

DIMENSIONS IN INCHES AND (MILLIMETERS)

Figure 3

TO-247 Style

MP9100

All power and associated overload ratings are derated

based upon case temperature using the derating curve.

The case temperature is measured at the center of the

ceramic mounting surface, with the part properly

mounted and under electrical load. Without a heat sink,

when in free air at +25°C, the MP915 is rated for 1.25

watts, the MP916, MP925, MP930 are rated for 2.25

watts, and the MP9100 is rated for 3.5 watts.

The thermal design should satisfy the following equation:

Case Temperature (Tc) + [Thermal Resistance (RθJC) x power applied (Watts)] ≤ TMAX considering the full

operating temperature range of the application.

Mounting Note: Mount on a smooth, clean, and at heat sink surface with a thermal interface material, such

as thermal grease. The entire exposed ceramic portion must be in thermal contact with the heat sink. When

screw mounting, use a compression washer which provides a mounting force of 150 to 300 pounds (665 to

1330 N). This will provide sufcient pressure on the package over time and through large temperature varia-

tions to maintain the maximum power dissipation capability. Mounting torque to avoid package damage is 8

in-lbs. (0.90 N-m). If a spring clip is used, a clip force of 8 to 30 pounds (35 to 130 N) is recommended to be

applied to the center of the package. The clip should be round or smooth in the contact area to avoid concen-

trating the load on a small point of the plastic body of the package. Another mounting option is to use a

pressure bar method which can achieve a greater mounting force with a greater contact area.

For additional applications information regarding mounting and pulse handling see the Caddock

Applications Notes at caddock.com or contact Applications Engineering.

Derating Curve Specications:

Temperature Coefcient for MP915, MP916,

MP925, and MP930:

TC referenced to +25°C, ∆R taken at +150°C

0.50 ohms and above, -20 to +80 ppm/°C

0.050 ohm to 0.49 ohms, 0 to +200 ppm/°C

0.020 ohm to 0.049 ohm, 0 to +300 ppm/°C

0.010 ohm to 0.019 ohm, 0 to +500 ppm/°C

Temperature Coefcient for MP9100:

TC referenced to +25°C, ∆R taken at +175°C

0.50 ohms and above, -20 to +80 ppm/°C

0.050 ohm to 0.49 ohms, 0 to +150 ppm/°C

Operating Temperature: -55°C to TMAX

Inductance: MP915, MP916, MP925, and MP930

10nH typical; MP9100, 20nH typical, in series when

measured at a point 0.2 inches from the resistor

body.

DWV: The dielectric strength rating of 1500 VrmsAC

is based upon connections made between

terminals shorted, and the metal surface the part is

mounted to or a metal clip in contact with the top

surface of the part.

Insulation Resistance: 10,000 Megohms min.

The resistor element is electrically isolated from

the mounting surface.

Load Stability: 2,000 hours at rated power.

∆R ±(1.0 percent + 0.0005 ohm) max. Power

rating dependent upon case temperature. See

derating curve.

Momentary Overload: 1.5 times rated power with

applied voltage not to exceed 1.5 times maximum

continuous operating voltage for 5 seconds. ∆R

±(0.5 percent + 0.0005 ohm) max.

Moisture Resistance: Mil-Std-202, Method 106.

∆R ±(0.5 percent + 0.0005 ohm) max.

Thermal Shock: Mil-Std-202, Method 107, Cond. F.

∆R ±(0.5 percent + 0.0005 ohm) max.

Shock: 100G, Mil-Std-202, Method 213, Cond. I.

∆R ±(0.4 percent + 0.0005 ohm) max.

Vibration, High Frequency: Mil-Std-202, Method

204, Cond. D. ∆R ±(0.4 percent + 0.0005 ohm)

max.

Terminal Strength: Mil-Std-202, Method 211,

Cond. A (Pull Test) 5 lbs. ∆R ±(0.2 percent

+ 0.0005 ohm) max.

Terminal Material: Solderable

Measurement Note: For these specifications,

resistance measurement shall be made at a point

0.2 inch (5.08 mm) from the resistor body.

.030 ±.004

(.76 ± .10)

.025 ± .004 (.64 ±.10)

.200 ±.010

(5.08 ±.26)

.450 ±.050

(11.43 ±1.27)

.115 ±.010

(2.92 ±.26)

MP915

0.10Ω

.110 ±.010

(2.79 ±.26)

.053 ± .007

(1.35 ± .18)

.058 ±.007 (1.47 ±.18)

.320 ±.010

(8.12 ±.26)

.094 ±.004

(2.39 ±.10) DIA.

.440 ±.010

(11.18 ±.26)

.080 ±.020

(2.03 ±.51)

.640 ±.010

(16.26 ±.26)

.030 ±.004

(.76 ± .10)

.025 ± .004 (.64 ±.10)

.200 ±.010

(5.08 ±.26)

.500 ±.050

(12.70 ±1.27)

.130 ±.030

(3.30 ±.76)

.125 ±.010

(3.18 ±.26)

.410 ±.010

(10.41 ±.26)

MP930

10.0

.125 ±.010

(3.18 ±.26)

.125 ±.004

(3.18 ±.10) DIA.

.053 ± .007

(1.35 ± .18)

.070 ±.010 (1.78 ±.26)

MP916

MP915

Model

No.

Comments

MP930

MP925

TO-220 Style

Package

TO-220 Style

TO-126 Style

0.010 Ω

0.019 Ω

0.020 Ω

1.00 K

Min.

Max.

Resistance

0.020 Ω

4.99 K

5.00K

100 K

16 Watts

15 Watts

Power

Rating

30 Watts

25 Watts

Max.

Voltage

Power

Limited

200

250

500

Thermal Resistance

Film (

) to Case (

)

8.33°C/Watt

5.00°C/Watt

4.17°C/Watt

7.81°C/Watt

150°C

Figure 2

Figure 1

Dimensions

Figure 2

Max. Temp.

MAX

150°C

MP9100

TO-247 Style

0.050 Ω

100 Ω

100 Watts

1.50°C/Watt

Figure 3

175°C

Power

Limited

Ceramic mounting surface

Figure 1

TO-126 Style

MP915

Figure 2

TO-220 Style

MP916, MP925

and MP930

0.143 ± 0.004

(3.63 ± 0.10) Dia.

0.620 ± 0.010

(15.75 ± 0.26)

0.110 ± 0.030

(2.79 ± 0.76)

0.570 ± 0.050

(14.48 ± 1.27)

0.195 ± 0.010

(4.95 ± 0.26)

0.095 ± 0.010

(2.41 ± 0.26)

0.143 ± 0.007

(3.63 ± 0.18)

0.060 ± 0.004

(1.52 ± 0.10)

0.400 ± 0.010

(10.16 ± 0.26)

0.210 ± 0.010

(5.33 ± 0.26)

0.815 ± 0.010

(20.70 ± 0.26)

MP 9100

50.0

0.032 +0.004 / -0.010

(0.81 +0.10 / -0.26)

* Derating Using Case Temperature (TC):

Page 2 of 2

28_IL102.0507

LOU-