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- Battery
9V battery- Hi Watt Battery With Teflon Battery Clip Connector – 1Pc
- 9V Hi-Watt Battery With Battery Clip
- This battery is a high capacity & low cost solution for many electronic devices.
- It is used with its specific battery snap, connector or clip.
- The battery clip can be used to power LEDs or other devices with a 9V battery.
SKU: 9V battery- Hi Watt Battery With Teflon Battery Clip Connector - 1Pc - Battery, Hardware Parts
9V battery- Hi Watt Battery(HW) With Teflon Battery Clip Connector – 1Pcs
-41%Battery, Hardware Parts9V battery- Hi Watt Battery(HW) With Teflon Battery Clip Connector – 1Pcs
- 9V Hi-Watt Battery With Battery Clip
- This battery is a high capacity & low cost solution for many electronic devices.
- It is used with its specific battery snap, connector or clip.
- The battery clip can be used to power LEDs or other devices with a 9V battery.
SKU: 9V battery- Hi Watt Battery(HW) With Teflon Battery Clip Connector - 1Pcs - Boards
Arduino Due Microcontroller Board
The Due is Arduino’s first ARM-based Arduino development board. This board is based on a powerful 32bit CortexM3 ARM microcontroller made programmable through the familiar Arduino IDE. It increases the computing power available to Arduino users keeping the language as compatible as possible so that many programs will be migrated in a matter of minutes! The Arduino Due has 54 digital input/output pins (of which 12 can be used as PWM outputs), 12 analog inputs, 4 UARTs (hardware serial ports), an 84 MHz clock, a USB-OTG capable connection, 2 DAC (digital to analog), 2 TWI, a power jack, an SPI header, a JTAG header, a reset button and an erase button. There are also some cool features like DACs, Audio, DMA , an experimental multi tasking library and more. Note: Unlike other Arduino boards, the Arduino Due board runs at 3.3V. The maximum voltage that the I/O pins can tolerate is 3.3V. Providing higher voltages, like 5V to an I/O pin could damage the board. Features: Micro-controller: AT91SAM3X8E Operating Voltage: 3.3V Recommended Input Voltage: 7-12V Min-Max Input Voltage: 6-20V Digital I/O Pins: 54 (of which 12 provide PWM output) Analog Input Pins: 12 Analog Outputs Pins: 2 Total DC Output Current on all I/O lines: 130 mA DC Current for 3.3V Pin: 800 mA DC Current for 5V Pin: 800 mA Flash Memory: 512 KB all available for the user applications SRAM: 96 KB (two banks: 64KB and 32KB) Clock Speed: 84 MHz
SKU: Arduino_due - Potentiometer, Resistance
100K Dual Potentiometer -1 pc
This Panel Mount 100K Dual Log Potentiometer is a dual-ganged potentiometer that will satisfy all your stereo-signal needs. Instead of just one potentiometer, you actually get two separate pots, ‘ganged’ together. Turning the grippy shaft twists both standard logarithmic-taper 10Kohm potentiometers. It’s smooth and easy to turn, but not so loose that it will shift on its own.
Potentiometers, or “pots” to electronics enthusiasts, are differentiated by how quickly their resistance changes. In linear pots, the amount of resistance changes in a direct pattern. If you turn or slide it halfway, its resistance will be halfway between its minimum and maximum settings. That’s ideal for controlling lights or a fan, but not necessarily for audio controls. Volume controls have to cater to the human ear, which isn’t linear. Instead, logarithmic pots like this one increase their resistance on a curve. At the halfway point volume will still be moderate, but it will increase sharply as you keep turning up the volume. This corresponds to how the human ear hears. Using a log pot therefore gives the effect that a setting of full volume on the control sounds twice as loud as a setting of half volume. A linear pot used as a volume control would give large apparent changes in loudness at low volume settings, with little apparent change over the rest of the control´s range.
Unlike some of our other potentiometers, this one is not breadboard-friendly. The pins are about 0.2″ apart so it will fit into a breadboard, but the two rows are close together so you’d short the two halves. Thus, we suggest soldering wires to the pins as necessary, using these in a perf-board that doesn’t have the rows connected, or designing a custom PCB.
Once you’re done prototyping, you can drill a hole into your project box and mount the potentiometer using the included washer and hex nut.
SKU: POT_100k_6