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MAX9960 - Dual-Flash-Pin Electronics/Supervoltage Switch Matrix

General Description

The MAX9960 dual-flash-pin electronics/supervoltage switch matrix replaces most of the relays and switches commonly needed to connect system resources to each of two pins in a flash memory or SOC ATE system (Figure 1).

Key Features

  • signal path switches with wide 600MHz bandwidth, low 3Ω series resistance, and low 8pF shunt capacitance over a voltage range compatible with common pin electronics ICs. An on-chip voltage-doubling buffer with selectable 1x or 2x gain generates the flash supervoltage, allowing a 6.5V DAC reference input to generate up to a maximum of 13V for flash-memory programming levels. When switching from the FVHH_ to PE_ or from PE_ to FVHH_, the device-under-test (DUT_) voltage behaves monotonically. Swit.

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Full PDF Text Transcription (Reference)

The following content is an automatically extracted verbatim text from the original manufacturer datasheet and is provided for reference purposes only.

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19-3441; Rev 0; 10/04 Dual-Flash-Pin Electronics/Supervoltage Switch Matrix General Description The MAX9960 dual-flash-pin electronics/supervoltage switch matrix replaces most of the relays and switches commonly needed to connect system resources to each of two pins in a flash memory or SOC ATE system (Figure 1). The device provides seven switches per channel to select up to four independent sources: the pin electronics (PE), two parametric measurement units (PMUs) or other Kelvin analog resources, and a flash memory programming supervoltage (FV HH _). The force-and-sense PMU switches are independently controlled, enabling their use to connect two non-Kelvin resources in place of each PMU or Kelvin resource.