MP2060-200-1% Caddock

New Clip Mount Values to 0.005 MP2060 Kool-Pak Clip Mount Power Film Resistor TO-220 Style Power Resistor Designed for Clip Mounting - Non-Inductive Up to 60 Watts continuous power at +25C case temperature, 0.020 and above. Up to 60 Amps continuous current at +25C case temperature, 0.015 and below. TO-220 Style package utilizes proven power semiconductor thermal solutions. Equivalent to UL94 V-0 flammability rating. Excellent pulse/surge performance. Non-inductive design for high speed switching, snubbers and rf applications. Operation up to +150C case temperature. Electrically isolated case. Thermal Resistance Power Max. Current Max. Model Package Resistance R JC Rating Rating (Amps) Voltage Film (J) to Case (C) Current 18 Watts 60 A 6.94C/Watt 0.005 rms * Limited Current 60 A 0.010 36 Watts rms 3.47C/Watt * Limited TO-220 MP2060 Style Current 60 A These products are covered by one or more 0.015 rms 2.31C/Watt 54 Watts * Limited patents, also patents pending. I = P/R 250 V 0.020 to 1.00K 60 Watts rms 2.08C/Watt * Specifications: Derating Curve Derating Using Case Temperature (T ): Temperature Coefficient: 100 * C All power and associated overload ratings are 80 TC referenced to +25C, R taken at +150C derated based upon case temperature using the 0.50 ohm and above, -20 to +80 ppm/C 60 derating curve. The case temperature is mea- 0.050 ohm to 0.49 ohm, 0 to +100 ppm/C 40 sured at the center of the ceramic mounting sur- 0.015 ohm to 0.049 ohm, 0 to +200 ppm/C 20 face, with the part properly mounted and under 0.005 ohm to 0.014 ohm, 0 to +300 ppm/C 0 electrical load. Without a heat sink, when in free 25 100 150 air at +25C, the MP2060 is rated for 2.5 watts. Operating Temperature: -55C to +150C CASE TEMPERATURE, C The thermal design should satisfy the following equation: Inductance: 10 nH typical in series when Case Temperature (Tc) + Thermal Resistance (R ) x power applied (Watts) 150C, considering the full JC measured at the shoulder of the lead. operating temperature range of the application. Capacitance: <1 pf typical without heat sink. Mounting Note: Mount on a smooth, clean and flat heat sink surface with a thermal interface material, such as thermal grease. The entire exposed ceramic portion must be in contact with the heat sink. When using a DWV: 1500 V AC isolation to the mounting rms spring clip, it is recommended that a mounting force of 8 to 30 pounds (35 to 130 N) be applied to the center of surface or a clip in contact with the top surface. the package. The clip should be round or smooth in the contact area to avoid concentrating 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 Insulation Resistance: 10,000 Megohms, min. achieve a greater mounting force with a greater contact area. The resistor element is electrically isolated from the For additional applications information regarding mounting and pulse handling see the Caddock Ap- mounting surface. plications Notes at caddock.com or contact Applications Engineering. Momentary Overload: 1.5 times rated power for 5 seconds, R (0.5 percent + 0.0005 ohm) max. Standard Resistance Values: 0.175 0.010 0.410 0.010 (10.41 0.26) (4.45 0.26) Tolerance: 1% Standard (except as noted) Load Stability: 2000 hours at rated power R less than (1 percent +0.0005 ohm). 10.0 100 0.005 5% 0.33 0.010 2% 0.40 12.0 120 Moisture Resistance: Mil-Std-202, Method 106, 15.0 150 0.015 2% 0.50 0.640 0.010 R (0.5 percent + 0.0005 ohm) max. 0.020 0.75 20.0 200 (16.26 0.26) MP2060 25.0 250 0.025 1.00 50.0 0.150 0.030 Thermal Shock: Mil-Std-202, Method 107, 1% 0.030 1.50 27.0 300 (3.81 0.76) Cond. F, R (0.5 percent + 0.0005 ohm) max. 30.0 330 0.033 2.00 0.100 0.020 0.040 2.50 33.0 400 (2.54 0.51) Shock: 100G, Mil-Std-202, Method 213, 40.0 470 0.050 3.00 0.500 0.050 Cond. I, R (0.4 percent + 0.0005 ohm) max. 0.075 3.30 47.0 500 0.050 0.007 (12.70 1.27) 50.0 560 (1.27 0.18) 0.10 4.00 Vibration, High Frequency: Mil-Std 202, 0.15 5.00 56.0 750 75.0 1.00 K Method 204, Condition D, R (0.4 percent 0.20 7.50 0.200 0.010 0.035 0.007 0.25 8.00 + 0.0005 ohm) max. (5.08 0.26) (0.89 0.18) 0.30 0.105 0.010 Terminal Strength: Mil-Std-202, Method 211, (2.67 0.26) For custom values and tolerances contact DIMENSIONS IN INCHES AND (MILLIMETERS) Cond. A (Pull Test) 5 lbs., R (0.2 percent Applications Engineering + 0.0005 ohm) max. Ordering Information: Terminal Material: Solderable MP2060 - 0.050 - 1% Model Number: Tolerance Measurement Note: Resistance measurements Resistor Value: shall be made at 0.2 inch (5.08 mm) from the resistor body. Packaging Information: MP2060 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.). Sales and Applications Engineering 17271 North Umpqua Hwy. ELECTRONICS, INC. Roseburg, Oregon 97470-9422 e-mail: caddock caddock.com web: www.caddock.com Phone: (541) 496-0700 For Caddock Distributors listed by country see caddock.com/contact/dist.html Fax: (541) 496-0408 2003-2017 Caddock Electronics, Inc. 28 IL128.0717 RATED POWER %X-ON Electronics Largest Supplier of Electrical and Electronic Components Click to view similar products for Thick Film Resistors - Through Hole category: Click to view products by Caddock manufacturer: Other Similar products are found below : M8340104M4701GCD03 M8340105K3300GGD03 M8340105K3922FGD03 M8340106K1002JCD03 M8340107K1002GGD03 M8340107K1152FGD03 M8340107K2701GCD03 M8340107M2002GCD03 M8340108K1000GCD03 M8340108K5601GCD03 M8340108M2203GCD03 M8340109K1002JCD03 M8340109K1003GCD03 M8340109K5101GGD03 FHV05010M0FKRB MOX-2- 125005F MP850-3.00-1% hte24511kf SM-SP093 ARC3.11 2M J A M8340105K1001GCD03 M8340105K3002GGD03 M8340105M1002JGD03 M8340107K2001GGD03 M8340107K4701GGD03 M8340107K5101GGD03 M8340107K5600GGD03 M8340108K4990FGD03 M8340108K49R9FGD03 M8340108M10R0GGD03 M8340109K2202GGD03 M8340109K5601GCD03 MOX- GRD-001 MOX-SP020 MOX-SP025E M8340107K2001GCD03 M8340102M4701GBD04 M8340102K1002GBD04 M8340102K1002GAD04 M8340109K2002GGD03 M8340108K22R0GGD03 M8340107M5100GGD03 OE1305 WMHP100-R22J M8340104K39R2FCD03 M8340106MA012JHD03 M8340107K1003GGD03 MS126-9.09K-0.1% MS126-249K-0.1% MS-221-82R5