USMRP05002530AN2W-0P85W-113P68GHz 0.85W, 113.68GHz, ALUMINIUM NITRIDE FULL WRAPAROUND POWER CHIP RESISTORS Microwave power resistors on Aluminium Nitride AlN 0.85W 113.68 3dB 25 x 50 mils manufactured by US Microwaves
USMRP05002530AN2W-0P85W-113P68GHz 0.85W, 113.68GHz, ALUMINIUM NITRIDE FULL WRAPAROUND POWER CHIP RESISTORS Microwave power resistors on Aluminium Nitride AlN 0.85W 113.68 3dB 25 x 50 mils manufactured by US Microwaves US MICROWAVES 0.85W, 113.68GHz, ALUMINIUM NITRIDE FULL WRAPAROUND POWER CHIP RESISTORS Advanced Microwave Components USMRP05002530AN2W-0P85W-113P68GHz FEATURES APPLICATIONS AlN POWER CHIP RESISTOR High power dissipation while working up to GHz range frequencies Low insertion loss High reliability and ruggedness Small chip size with reduced stray capacitance per unit area Low temperature coefficient Wide operating temperature range Microwave and RF high power terminations Resistive microwave power dividers Wilkinson power dividers Power attenuators Microwave power amplifiers 0.85W, 113.68GHz, ALUMINIUM NITRIDE FULL WRAPAROUND POWER CHIP RESISTORS USMRP05002530AN2W-0P85W-113P68GHz PRODUCT DESCRIPTION AND SHORT APPLICATION NOTE USMRP05002530AN2W-0P85W-113P68GHz, 0.85W, 113.68GHz, Aluminium Nitride (AlN) flange less power chip resistors are designed to be used in chip and wire hybrid circuits as microwave and RF power resistors, power terminations, Wilkinson power dividers, power attenuators, microwave power amplifiers, etc. Flange less thin film power chip resistors and terminations have low temperature coefficients, low noise and increased long term stability compared to their thick film counterpart (see app note 110). In high power applications, temperature coefficient of resistance and long term stability have to be the best available. TECHNOLOGY DESCRIPTION: SEMICONDUCTOR-THIN FILM MANUFACTURING All thin film microwave products are manufactured using advanced semiconductors and thin film technologies including ultra-stable and self passivating Tantalum Nitride resistors, gold interconnect metallization and reliable MNOS capacitors to achieve excellent uniformity, performance and reliability. Thin film technology is the preferred solution for all applications that require low noise, long term stability and excellent performance at very high frequencies. US Microwaves employs proprietary thin film technologies for deposition of a wide range of resistive films with sheet resistance films from 1Ω/sq to 10,000Ω/sq. All US Microwaves products are available in die form and are ideal for high reliability hybrid and multi chip module applications. All US Microwaves products are manufactured using GOLD CHIP TECHNOLOGY™ a trade mark of Semiconix Corporation. ELECTRICAL/MECHANICAL CHARACTERISTICS PARAMETER VALUE UNITS Resistance range 1 - 5100 Ω Maxim Power 0.85 W Maxim Capacitance 0.028 pF 3dB frequency (defined for 50ohm resistance) 113.68 GHz Temperature Coefficient -55C to 150C 100 ppm/°C Tolerances available 1 % Operating Temperature range -65 to +200 °C Working voltage (Vw) √(P*R) V Peak voltage at 25C, 5 sec 1.5×Vw V Insulation resistance at 25 C 1013 Ω ONLY Proper die handling equipment and procedures should be employed. Stresses beyond listed absolute maximum ratings may cause permanent damage to the device. GENERAL DIE INFORMATION Substrate Thickness [mils] Size [mils] Bonding Pads Backside metal Aluminium Nitride (AlN) 30±3 50x25±2 Top Pad size is Min [W-2]x4 mils, X=17, 3um thick, 99.99% electroplated gold with a TiW barrier. Available different dimensions for X for custom orders (may affect rated power). Keeping X1 as close as possible to X is recommended. Wrap around resistors available with soldable or weldable terminations. X=17 mils for standard products. All US Microwaves products are available in die form. Typical delivery for die products is 2-3 weeks ARO. For Custom designs, delivery is 3-4 weeks ARO. Certain items may be available from stock. Inventory is periodically updated. All devices for chip and wire applications are 100% tested, visual inspected and shipped in waffle packs (WP). AlN POWER CHIP RESISTOR DIE LAYOUT / MECHANICAL SPECIFICATIONS 0.85W, 113.68GHz, ALUMINIUM NITRIDE FULL WRAPAROUND POWER CHIP RESISTORS USMRP05002530AN2W-0P85W-113P68GHz POWER CHIP RESISTORS S PARAMETERS 0.85W, 113.68GHz, ALUMINIUM NITRIDE FULL WRAPAROUND POWER CHIP RESISTORS USMRP05002530AN2W-0P85W-113P68GHz RETURN LOSS S-PARAMETERS STANDARD PRODUCTS ORDERING INFORMATION USM P/N WAFFLE PACK R [Ω] MIN. QTY U/P [$] USMRP05002530ANW-0P85W-500-1% -WP 50 238 8.06 PART NUMBER BUILDER R [Ω] R multiplier TOLERANCE PACKAGE Find part # Vmax [V] F@3dB [GHz] STANDARD EIA-24 VALUES - PRODUCTS ORDERING INFORMATION USM P/N R [Ω] USM P/N R [Ω] USMRP05002530ANW-0P85W-1R0 1.0 USMRP05002530ANW-0P85W-750 75.0 USMRP05002530ANW-0P85W-1R1 1.1 USMRP05002530ANW-0P85W-820 82.0 USMRP05002530ANW-0P85W-1R2 1.2 USMRP05002530ANW-0P85W-910 91.0 USMRP05002530ANW-0P85W-1R3 1.3 USMRP05002530ANW-0P85W-101 100.0 USMRP05002530ANW-0P85W-1R5 1.5 USMRP05002530ANW-0P85W-111 110.0 USMRP05002530ANW-0P85W-1R6 1.6 USMRP05002530ANW-0P85W-121 120.0 USMRP05002530ANW-0P85W-1R8 1.8 USMRP05002530ANW-0P85W-131 130.0 USMRP05002530ANW-0P85W-2R0 2.0 USMRP05002530ANW-0P85W-151 150.0 USMRP05002530ANW-0P85W-2R2 2.2 USMRP05002530ANW-0P85W-161 160.0 USMRP05002530ANW-0P85W-2R4 2.4 USMRP05002530ANW-0P85W-181 180.0 USMRP05002530ANW-0P85W-2R7 2.7 USMRP05002530ANW-0P85W-201 200.0 USMRP05002530ANW-0P85W-3R0 3.0 USMRP05002530ANW-0P85W-221 220.0 USMRP05002530ANW-0P85W-3R3 3.3 USMRP05002530ANW-0P85W-241 240.0 USMRP05002530ANW-0P85W-3R6 3.6 USMRP05002530ANW-0P85W-271 270.0 USMRP05002530ANW-0P85W-3R9 3.9 USMRP05002530ANW-0P85W-301 300.0 USMRP05002530ANW-0P85W-4R3 4.3 USMRP05002530ANW-0P85W-331 330.0 USMRP05002530ANW-0P85W-4R7 4.7 USMRP05002530ANW-0P85W-361 360.0 USMRP05002530ANW-0P85W-5R0 5.0 USMRP05002530ANW-0P85W-391 390.0 USMRP05002530ANW-0P85W-5R1 5.1 USMRP05002530ANW-0P85W-431 430.0 USMRP05002530ANW-0P85W-5R6 5.6 USMRP05002530ANW-0P85W-471 470.0 USMRP05002530ANW-0P85W-6R2 6.2 USMRP05002530ANW-0P85W-501 500.0 USMRP05002530ANW-0P85W-6R8 6.8 USMRP05002530ANW-0P85W-511 510.0 USMRP05002530ANW-0P85W-7R5 7.5 USMRP05002530ANW-0P85W-561 560.0 USMRP05002530ANW-0P85W-8R2 8.2 USMRP05002530ANW-0P85W-621 620.0 USMRP05002530ANW-0P85W-9R1 9.1 USMRP05002530ANW-0P85W-681 680.0 USMRP05002530ANW-0P85W-100 10.0 USMRP05002530ANW-0P85W-751 750.0 USMRP05002530ANW-0P85W-110 11.0 USMRP05002530ANW-0P85W-821 820.0 USMRP05002530ANW-0P85W-120 12.0 USMRP05002530ANW-0P85W-911 910.0 USMRP05002530ANW-0P85W-130 13.0 USMRP05002530ANW-0P85W-102 1000.0 USMRP05002530ANW-0P85W-150 15.0 USMRP05002530ANW-0P85W-112 1100.0 USMRP05002530ANW-0P85W-160 16.0 USMRP05002530ANW-0P85W-122 1200.0 USMRP05002530ANW-0P85W-180 18.0 USMRP05002530ANW-0P85W-132 1300.0 USMRP05002530ANW-0P85W-200 20.0 USMRP05002530ANW-0P85W-152 1500.0 USMRP05002530ANW-0P85W-220 22.0 USMRP05002530ANW-0P85W-162 1600.0 USMRP05002530ANW-0P85W-240 24.0 USMRP05002530ANW-0P85W-182 1800.0 USMRP05002530ANW-0P85W-270 27.0 USMRP05002530ANW-0P85W-202 2000.0 USMRP05002530ANW-0P85W-300 30.0 USMRP05002530ANW-0P85W-222 2200.0 USMRP05002530ANW-0P85W-330 33.0 USMRP05002530ANW-0P85W-242 2400.0 USMRP05002530ANW-0P85W-360 36.0 USMRP05002530ANW-0P85W-272 2700.0 USMRP05002530ANW-0P85W-390 39.0 USMRP05002530ANW-0P85W-302 3000.0 USMRP05002530ANW-0P85W-430 43.0 USMRP05002530ANW-0P85W-332 3300.0 USMRP05002530ANW-0P85W-470 47.0 USMRP05002530ANW-0P85W-362 3600.0 USMRP05002530ANW-0P85W-500 50.0 USMRP05002530ANW-0P85W-392 3900.0 USMRP05002530ANW-0P85W-510 51.0 USMRP05002530ANW-0P85W-432 4300.0 USMRP05002530ANW-0P85W-560 56.0 USMRP05002530ANW-0P85W-472 4700.0 USMRP05002530ANW-0P85W-620 62.0 USMRP05002530ANW-0P85W-502 5000.0 USMRP05002530ANW-0P85W-680 68.0 USMRP05002530ANW-0P85W-512 5100.0 Products sold for space, military or medical applications, element evaluation and/or level K or S qualification are subject to minimum order levels to be established on a case by case basis. For any special applications, die level KGD qualification requirements, different packaging or custom configurations, contact sales department. INSTANT QUOTE US Microwaves P/N Quantity E-mail ORDERING: Order on line at: http://www.usmicrowaves.com/porder.htm. A copy of the order along with an order confirmation receipt is issued instantly for all orders placed on line. On line Orders have to be verified, accepted and acknowledged by US Microwaves sales department in writing before, becoming non cancelable binding contracts. DELIVERY: Typical delivery for die products packaged in waffle packs is 2-4 weeks ARO. For Custom designs, delivery is 3-5 weeks ARO. Certain items may be available from stock with delivery up to 1 week. SHIPPING/PACKAGING: All devices for chip and wire applications are 100% tested, visual inspected and shipped in waffle packs (WP). For larger orders,>10k pc, devices can be shipped on film frame. For smaller quantities, it may vary. For high volume automated assembly, devices may be supplied as 4" wafers 100% tested, inked and diced on expanded film frame (FF). SAMPLES: Samples are available only for customers that have issued firm orders pending qualification of product in a particular application. GUARANTEED SUPPLY! US Microwaves guarantees continuous supply and availability of all standard products provided minimum order quantities are met. U.S. Microwaves has made every effort to have this information as accurate as possible. However, no responsibility is assumed by U.S. Microwaves for its use, nor for any infringements of rights of third parties which may result from its use. U.S. Microwaves reserves the right to revise the content or modify its product line without prior notice. U.S. Microwaves products are not authorized for and should not be used within support systems which are intended for surgical implants into the body, to support or sustain life, in aircraft, space equipment, submarine, or nuclear facility applications without the specific written consent of U.S. Microwaves. Home Product Tree Tech. Support PDF Request Quote Inventory Place Order Contact sales Last updated: US MICROWAVES www.semiconix-semiconductor.com Tel:(408)986-8026 Fax:(408)986-8027 ©1990- US MICROWAVES All rights reserved. No material from this site may be used or reproduced without permission.