Microchip Technology

The UXN14M32KE is the evaluation board for the UXN14M32K (Prescaler-SuperDivider). This device is a highly programmable integer divider covering all integer divide ratios between 1 and 4,294,967,295 (232-1). The device features single-ended or differential inputs and outputs. 3-wire serial control inputs are CMOS and LVTTL compatible for ease of system integration. The SuperDivider is packaged in a 24-pin, 4 mm x 4 mm leadless ceramic surface mount package.

The UXN14M9PE is the evaluation board for the UXN14M9P, a highly programmable integer divider covering all integer divide ratios between 8 and 511. The device features single-ended or differential inputs and outputs. Parallel control inputs are CMOS and LVTTL compatible for ease of system integration. The UXN14M9P is packaged in a 40-pin, 6mm x 6mm leadless plastic surface mount package.

The UXN40M7K is a 0.5 to 40 GHz, Divide-by-1-to-127 Programmable Integer Divider. The UXN40M7K is packaged in a 24-pin, 4 mm × 4 mm leadless ceramic SMT. The UXN40M7K can be used as a general purpose, highly configurable divider in a variety of synthesizer applications. Fast switching combined with a wide range of divide ratios make the UXN40M7K an excellent choice for fractional-N and integer-N phase-locked loops.

The VSC8522-02 and VSC8522-04 devices contain 12 integrated Gigabit Ethernet (GE) PHYs with a power efficient voltage-mode design, all within a single package. They leverage Microchip's 65 nm technology, resulting in one of the most cost-effective and lowest power consumption solutions in the industry. They include the most advanced EcoEthernet IEEE 802.3az Energy Efficient Ethernet features for bringing green technology solutions to market. The devices employ the latest QSGMII MAC interfaces to reduce PCB routing to a MAC, switch, or ASIC chip. Ideal for high-density switch and router applications, these devices enable Ethernet multiport systems to achieve very low system Bill of Material (BOM) costs, reducing overall production costs for more cost-effective deployments. The devices use field-proven, fully adaptive equalization and innovative timing recovery algorithms for unparalleled noise tolerance performance. In addition, they are based on patented, fully balanced voltage-mode line driver technology, which allows lower cost magnetics to be used