Voltage (Purple) 16x
CLICK HERE ->>> https://tlniurl.com/2tCFWu
Asus went with a dual-fan dual-heatpipe thermal module here. This is more complex than on regular VivoBooks powered by low-voltage hardware, and fairly similar to the designs available on other mid-tier 15/16-inch notebooks.
On its back you can spot a wide variety of digital inputs as: USB, I2S, Optical, Coaxial and AES. Do note that USB and I2S are the only inputs that will decode natively DSD material or PCM up to 32-bit 768 kHz. It is a fully-balanced DAC, so it offers XLR and RCA outputs, a 110V or 220V voltage switch, there is also a Bluetooth antenna socket, an AC inlet and an On/Off switch.
The power supply and filtering are on pretty high level, a linear and regulated toroidal transformer will be doing the cleaning service and several voltage regulators will be taking that power, will be lowering the noise floor even more, offering back a much cleaner power to the critical analog and digital circuitry.
EZ Tuner allows on the fly changes to processor VCore and also changes to BCLK within the OS as well as monitoring primary voltage rails and processor power monitoring. There are no options for changes to VTT or VDimm unfortunately, although the MI-T36 is limited in the overclocking department anyway.
The BIOS layout is generally good and offers a significant number of settings for overclocking although some of the settings seem out of place on this board given the power delivery limitations. You get fine control over DRAM reference voltage settings as well as options for adjusting compensation levels to critical signal lines. The latter is a feature we've only seen available on the more expensive EVGA boards.
Round and round and round they go! 16 ultra bright smart LED NeoPixels are arranged in a circle with 1.75\" (44.5mm) outer diameter. The rings are 'chainable' - connect the output pin of one to the input pin of another. Use only one microcontroller pin to control as many as you can chain together! Each LED is addressable as the driver chip is inside the LED. Each one has 18mA constant current drive so the color will be very consistent even if the voltage varies, and no external choke resistors are required making the design slim. Power the whole thing with 5VDC (4-7V works) and you're ready to rock.There is a single data line with a very timing-specific protocol. Since the protocol is very sensitive to timing, it requires a real-time microconroller such as an AVR, Arduino, PIC, mbed, etc. It cannot be used with a Linux-based microcomputer or interpreted microcontroller such as the netduino or Basic Stamp. Our wonderfully-written Neopixel library for Arduino supports these pixels! As it requires hand-tuned assembly it is only for AVR cores but others may have ported this chip driver code so please google around. An 8MHz or faster processor is required.Comes as a single ring with 16 individually addressable RGB LEDs assembled and tested. 781b155fdc