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NXP USA Inc. LPC810M021FN8129 — Microcontrollers & Processors (MCU / MPU / DSP)

NXP LPC810M021FN8129 — 32-bit ARM Cortex-M0+ MCU, 4KB Flash, 8-DIP

MPNLPC810M021FN8129
Active

NXP LPC81xM series 32-bit ARM Cortex-M0+ MCU, 30MHz, 4KB Flash / 1KB RAM, 1.8–3.6 V supply, built-in PWM/WDT/POR/Brown-out, I²C/SPI/UART, 6 I/O, 8-DIP (0.300", 7.62mm) through-hole, -40°C to 85°C. Active.

$1.7000Ref. price · indicative, final on quote
Packaging8-DIP (0.300", 7.62mm)
StockContact for availability
MOQ1 pcs
  • 100% new & originalTraceable channels only — no refurbs, no pulls, no remarked parts.
  • Date & lot codes on quoteStated per line before you commit; label photos on request.
  • MSL-compliant ESD packingMoisture-sealed bags with indicator cards; reels photo-verified.
  • PayPal buyer protectionPay by T/T, PayPal or Payoneer — card payments covered end to end.

Specifications

LPC810M021FN8129 Technical Specifications
ParameterValue
SeriesLPC81xM
Mounting typeThrough Hole
Oscillator typeInternal
Program memory typeFLASH
Voltage - supply (Vcc (Vdd))1.8V ~ 3.6V
Operating temperature-40°C~85°C(TA)
Speed30MHz
PackageBulk
RAM size1K x 8
Core size32-Bit Single-Core
PeripheralsBrown-out Detect/Reset, POR, PWM, WDT
ConnectivityI²C, SPI, UART/USART
Number of i (O)6
Core processorARM® Cortex®-M0+
Case8-DIP (0.300\", 7.62mm)
Program memory size4KB (4K x 8)

Frequently asked questions

Does the 1.8–3.6 V supply range of the LPC810M021FN8129 drop into a standard 3.3 V industrial rail without level-shifting?

Yes — nominal 3.3 V falls inside the 1.8–3.6 V operating window, so no Vcc regulation or level-shifting is needed on the supply rail. The I/O swings to Vcc, which means 5 V legacy field devices on shared buses will need open-drain configuration or external buffering.

Can the 4KB Flash / 1KB RAM run bare-metal control loops with PWM and WDT, or does firmware need to offload timing to an external PLC?

For single-function roles — sensor interfacing, actuator PWM control with watchdog fault recovery — the on-die peripherals and memory are sufficient. Complex multi-tasking or security-heavy firmware will outgrow the memory budget and should use a host PLC or a higher-flash LPC800 variant.

How does the 8-DIP footprint of the LPC810 compare to an ATtiny85 for through-hole migration?

The 0.300" 8-DIP body and 7.62mm pin pitch match the ATtiny85 mechanically, so socket-to-socket replacement is feasible on board layout. Check Vcc compatibility (3.3 V max versus 5 V tolerance the AVR may have supported) and port count before committing.