Motor control, LED drivers and power sequencing demonstration
GreenPAK mixed-signal matrix IC with in-system I2C programming
To simplify production, an unprogrammed SLG46826 can be installed on the PCB for in-system programming. This allows functions to be added, or for the configuration to be amended, on the production line.
The SLG46826 is programmed using the non-volatile memory (NVM), which can be programmed multiple times. Used to configure the interconnect logic, IOs and macrocells, the NVM is specified for 1,000 erase/write cycles.
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SLG46535V GreenPAK mixed-signal matrix with asynchronous state machine and dual supply
Create your own circuit with one-time programming of the non-volatile memory (NVM), to configure the interconnect logic, the I/O pins and the macrocells of the SLG46535 matrix.
Measuring 2 mm x 2.2 mm x 0.55 mm, the compact SLG46535 combines low power consumption across a range of mixed-signal functions, as well as the flexible interface of two independent voltage domains. The signals can be transmitted directly across the two voltage domains, or level-translation can be used to selectively pass the signals in both directions.
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GreenPAK mixed-signal matrix with load switches and asynchronous state machine
The load switch is controlled by connecting the I/O pins, look up tables (LUTs), and counter/delay macrocells, or other GreenPAK macrocells, as source signals for on or off switching. The P-FET power switches in the SLG46517 have low on-resistance.
With the SLG46517, the circuit is created by configuration using the one time programmable (OTP) non-volatile memory (NVM). A wide range of mixed-signal functions can be designed in a very compact single IC, which also achieves low power consumption.
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Create your custom mixed-signal circuit in minutes with a GreenPAK matrix
Power consumption is also cut by replacing the discrete resistors in the voltage dividers, pull ups and pull downs, with low-power integrated functions. You can also cut power consumption even further by using the GreenPAK sleep function.
Reliability and security are increased by using GreenPAK. With fewer PCB interconnects, reliability is higher and your design security is strengthened by disabling the NVM configuration read-back. This makes reverse engineering substantially more difficult.
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