Microchip announces PIC16(L)F161X microcontroller | Automation.com

Microchip announces PIC16(L)F161X microcontroller

November 202014
Microchip announces  PIC16(L)F161X  microcontroller

November 20, 2014 - Microchip Technology announced PIC16(L)F161X PIC 8-bit PIC microcontroller (MCU) that support  Microchip's Core Independent Peripherals (CIP). These peripherals are designed to reduce system complexity by eliminating the need for additional code and external components. Hardware-based peripherals offload timing-critical and core-intensive functions from the CPU, allowing it to focus on other critical tasks within the system.

The PIC16(L)F161X PIC MCUs offer the Math Accelerator (Math ACC) with Proportional Integral Derivative (PID), offering completely core independent calculations, with the capability to perform 16-bit math and PID operations. The family also includes the Angular Timer (AngTmr), which is a hardware module that calculates the rotational angel in functions, such as motor control, TRIAC control, or Capacitive Discharge Ignition (CDI) systems. Regardless of speed, the AngTmr allows recurring interrupts at a specific rotational or sinusoidal angle without using the core's computation. The CIPs can be configured to perform a host of given functions that increase execution speeds and decrease software requirements. Offloading these functions frees up the CPU to do other tasks, consumes less program memory, and reduces the overall power consumption of the MCU.

In addition to the MATH ACC and AngTmr, the PIC16(L)F161X features several other peripherals designed to ease implementation and add flexibility of various functions. The 24-bit Signal Measurement Timer (SMT) performs high-resolution measurements of digital signal, in hardware, resulting in more precise and accurate measurements. This is ideal for speed control, range finding and RPM indicators. This family also includes the Zero Cross Detect (ZCD) module, which can monitor AC line voltage, and indicate zero crossing activity. Simplifying TRIAC control applications greatly reduces both CPU demand and BOM cost. In combination with the new high-current I/Os (100 mA) and the proven Configurable Logic Cell (CLC) along with I2C, SPI and EUSART for communications, this integration helps speed design, eases implementation and adds flexibility.

This family also supports the implementation of safety standards such as Class B and UL 1998 or fail-safe operations by combining the Windowed Watchdog Timer (WWDT) which monitors proper software operation within predefined limits, improving reliability and Cyclic Redundancy Check with Memory Scan (CRC/SCAN) that detects and scans memory for corrupted data. Along with the Hardware Limit Timers (HLT), which detect hardware fault conditions (stall, stop, etc.), engineers can now enable safety and monitoring functions in their applications with minimum to zero involvement of the CPU. Along with all these features, the family offers low-power XLP technology and is provided in small-form-factor packages, ranging from 8-, 14- and 20- pin packages.

Development support
The PIC16(L)F161X family is supported by Microchip's standard suite of world-class development tools, including the PICkit 3 (part # PG164130) and MPLAB ICD 3 (part # DV164035). The MPLAB Code Configurator, which is a plug-in for Microchip's free MPLAB X IDE that provides a graphical method to configure 8-bit systems and peripheral features, and gets you from concept to prototype in minutes by automatically generating efficient and easily modified C code for your application.
The PIC12(L)F1612 MCUs are available today for sampling and volume production in 8-pin PDIP, SOIC, and 3 mm x 3 mm DFN and UDFN packages. The PIC16(L)F1613 MCUs are also available in 14-pin PDIP, SOIC, TSSOP, and 4 mm x 4 mm UQFN and QFN packages. The PIC(L)F1614 and PIC(L)F1615 are available now for sampling in 14-pin PDIP, SOIC, TSSOP, and 4 mm x 4 mm UQFN and QFN packages, and volume production is expected in January. The PIC16(L)F1618 and PIC(L)F1619 MCUs are also available today for sampling in 20-pin PDIP, SOIC, TSSOP, and 4 mm x 4 mm UQFN and QFN packages, and volume production is expected in January. The family is supplied in 10,000-unit quantities.


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