# Dillon Arnold **Handle:** @darnold9 ## Stats - **Projects:** 11 - **Components:** 11 - **Followers:** 0 - **Following:** 0 ## More - [Starred Projects](https://www.flux.ai/darnold9/starred.md) ## Projects (Page 1 of 1, 19 total) - [Induction Forge](https://www.flux.ai/darnold9/induction-forge.md) - Welcome to your new project. Imagine what you can build here. - [120VAC to 12VDC](https://www.flux.ai/darnold9/120vac-to-12vdc.md) - Welcome to your new project. Imagine what you can build here. - [120VAC to 5VDC](https://www.flux.ai/darnold9/120vac-to-5vdc.md) - Welcome to your new project. Imagine what you can build here. - [2N3904 NOT Gate](https://www.flux.ai/darnold9/2n3904-not-gate.md) - Welcome to your new project. Imagine what you can build here. - [STGAP2HDMTR](https://www.flux.ai/darnold9/stgap2hdmtr.md) - STGAP2HDMTR https://www.st.com/resource/en/datasheet/stgap2hd.pdf Galvanically isolated 4 A dual gate driver 2.65 511-STGAP2HDMTR https://www.mouser.co.uk/ProductDetail/STMicroelectronics/STGAP2HDMTR?qs=TCDPyi3sCW3HVxILiiXU2w%3D%3D STMicroelectronics STGAP2HDMTR - [Used Cyan Heat-Ray](https://www.flux.ai/darnold9/used-cyan-heat-ray.md) - Welcome to your new project. Imagine what you can build here. - [STGAP2HD Gate Driver IC](https://www.flux.ai/darnold9/stgap2hd-gate-driver-ic.md) - The STGAP2HD is a dual gate driver which provides galvanic isolation between each gate driving channel and the low voltage control and interface circuitry. The gate driver is characterized by 4 A current capability and rail-to-rail outputs, making it suitable for mid and high power applications such as power conversion and industrial motor driver inverters. The separated output pins allow to independently optimize turn-on and turn-off by using dedicated gate resistors, while the Miller CLAMP function allows avoiding gate spikes during fast commutations in half-bridge topologies. The device integrates protection functions: dedicated SD and BRAKE pins are available, UVLO and thermal shutdown are included to easily design high reliability systems. In half-bridge topologies the interlocking function prevents outputs from being high at the same time, avoiding shoot-through conditions in case of wrong logic input commands. The interlocking function can be disabled by a dedicated configuration pin, so to allow independent and parallel operation of the two channels. The input to output propagation delay results are contained within 75 ns, providing high PWM control accuracy. A standby mode is available in order to reduce idle power consumption. - [Retired Pink Matter Compiler](https://www.flux.ai/darnold9/retired-pink-matter-compiler.md) - Welcome to your new project. Imagine what you can build here. - [Single Output PWM Signal Generator](https://www.flux.ai/darnold9/single-output-pwm-signal-generator.md) - Welcome to your new project. Imagine what you can build here. - [24VDC Fan](https://www.flux.ai/darnold9/24vdc-fan.md) - Welcome to your new project. Imagine what you can build here. - [12VDC General Device](https://www.flux.ai/darnold9/12vdc-general-device.md) - Welcome to your new project. Imagine what you can build here. - [Terminal](https://www.flux.ai/darnold9/terminal.md) - Welcome to your new project. Imagine what you can build here. - [Innovative Chocolate Teleporter](https://www.flux.ai/darnold9/innovative-chocolate-teleporter.md) - Welcome to your new project. Imagine what you can build here. - [Total Lime Robot Vacuum](https://www.flux.ai/darnold9/total-lime-robot-vacuum.md) - Welcome to your new project. Imagine what you can build here. - [[Example] ESP32 Reference Design](https://www.flux.ai/darnold9/example-esp32-reference-design.md) - An example development and reference design for the ESP32 microcontroller. - [[Example] STM32F4x Preliminary Design](https://www.flux.ai/darnold9/example-stm32f4x-preliminary-design.md) - A preliminary design for developing SMT32F4x series based project that’ll help you get started faster. - [[Example] Simulation of Astable Multivibrator Circuit](https://www.flux.ai/darnold9/example-simulation-of-astable-multivibrator-circuit.md) - A simulated blinking LED circuit using an astable multivibrator a.k.a "flip-flop" as a square wave generator. It also includes PCB layout of the project. - [[Example] Simulation of Types of Transformers](https://www.flux.ai/darnold9/example-simulation-of-types-of-transformers.md) - Two separate simulated circuits which demonstrate how step-up and step-down type transformers work. - [[Example] Simulation of AC to DC Converter](https://www.flux.ai/darnold9/example-simulation-of-ac-to-dc-converter.md) - A simulated circuit that demonstrates how diodes in a bridge configuration convert an AC voltage to DC voltage. ## Pages - Pages: **1** --- *Generated from [https://www.flux.ai/darnold9](https://www.flux.ai/darnold9)*