Home Tag "INNOVATIVE POWER PRODUCTS"

Broadband Dual Directional Coupler

Model IPP-3206 is a 200W broadband dual directional coupler covering 20 to 520 MHz in a very small 1.16 x 1.76” package with SMA connectors. Insertion loss is <0.40 dB, main line VSWR is <1.25:1, coupled flatness is +/-0.60 dB, and directivity is greater than 20 dB. INNOVATIVE POWER PRODUCTS (99)

Surface Mount Hybrid Coupler

The IPP-7150 is a 3 dB, 90º surface mount hybrid coupler that operates from 2.0 to 6.0 GHz at 150W CW, and has improved amplitude balance of less than +/-0.4 dB across the full band. It will combine two signals up to 150W CW of total output power and is presented in a surface mount […]

Low Capacitance Resistor Products

Many new resistor values have been added to the company’s line of low capacitance resistive products. Due to their lower parasitic capacitance, these resistors are perfectly suited as isolation resistors in high power F combiners/dividers and transistor feedback networks. Available in standard and custom values. INNOVATIVE POWER PRODUCTS (27)

New 90º Surface Mount Hybrid Coupler

Model IPP-7150 is a 3 dB, 90º surface mount hybrid coupler that operates from 2.0 to 6.0 GHz at 150W CW, and has improved amplitude balance of less than +/-0.4 dB across the full band. It will combine two signals up to 150W CW of total output power and is in an SMD package measuring […]

Surface Mount Bi-Directional Coupler

The IPP-8036 is a 300W, 50 dB dual directional coupler that operates from 20 to 1000 MHz and is just 1.5 x 1.0” in size. The company has leveraged softboard laminate technology and embedded internal terminations in order to offer the unit in a surface mount package, instead of aluminum housing with connectors, which saves […]

SMD 90º Coupler

Model IPP-7133 is a 90º coupler that operates over the full 4000 to 6000 MHz band. It handles 100W CW and comes in a small SMD style package only 0.20 x 0.56 x 0.10” and available on tape and reel. The unit will combine two signals up to 100W CW of total output power. VSWR […]