Search results for "dac a"
HiFiBerry HiFiBerry DAC+ ADC
Features Stereo input and output Dedicated 192 kHz / 24-bit high-quality Burr-Brown DAC Dedicated 192 kHz / 24-bit high-quality Burr-Brown ADC Hardware volume control for DAC. The output volume can be controlled using “alsamixer” or any application that supports ALSA mixer controls. Connects directly onto the Raspberry Pi. No soldering required. Compatible with all Raspberry Pi models, that have a 40-pin GPIO connector No additional power supply required. Three ultra-low-noise linear voltage regulators. HAT compliant, EEPROM for automatic configuration. Gold plated RCA output connectors. Includes 4 M 2.5 x 12 mm spacers. Analogue input, phone jack 3.5 mm Analogue output RCA Analogue output (P5) Input configuration jumper (J1) Connector for balanced input (P6) Please note: Layout and components might change without further notice. Balanced/unbalanced input connector (P6) The 5-pin connector can be used to connect a balanced input. Please note that the balanced input has to be selected with the jumpers and will always have a 12 dB gain. It shouldn't be used with line-level inputs. Pin 1 is on the left. right + right – GND left – left + Output connector (P5) The output connector realizes connections to external components like an amplifier. Pin 1 is on the top left. +5V 1 2 R GND 3 4 GND +5V 5 6 L Input gain settings (J1) The jumper block is responsible for the input configuration. It is recommended to use the default setting without additional input gain. 32 dB gain can be used to connect dynamic microphones. Jumpers are numbered from top to bottom. 1 2 3 4 function 1 0 0 – 0 dB gain 0 1 1 – 12 dB gain 0 1 0 – 32 dB gain 0 0 1 – balanced input, 12 dB gain Specifications Maximum input voltage: 2.1 Vrms - 4.2 Vrms for balanced input Maximum output voltage: 2.1 Vrms ADC signal-to-noise ratio: 110 dB DAC signal-to-noise ratio: 112 dB ADC THD+N: -93 dB DAC THD+N: -93 dB Input voltage for lowest distortions: 0.8 Vrms Input gain (configurable with Jumpers): 0 dB, 12 dB, 32 dB Power consumption: < 0.3 W Sample rates: 44.1 kHz - 192 kHz In order to use the HiFiBerry DAC + ADC, your Raspberry Pi Linux kernel must be at least version 4.18.12. Click here to learn how to update the Raspberry Pi kernel Using microphones with the DAC+ ADC The DAC+ ADC is equipped with a stereo analogue input that can be configured for a wide range of input voltages. It performs best with line-level analogue sources. However, it is also possible to use it as a microphone input. You can only use dynamic microphones. Microphones that require a power supply are not supported. The microphone output voltage is very low. This means you need to amplify it. The DAC+ ADC has the necessary pre-amplifier already equipped. You will have to set the jumpers correctly. The sound from the input won’t be played back automatically on the output. You will have to use some software that reads the input and outputs it again. Setting the correct input amplifier settings for a microphone By default, the input sensitivity is matched for line-level audio sources. This is done via a jumper on the J1 header. In order to use a microphone, the jumper needs to be set up as shown below. Audio input to output There is no direct connection between the input and the output. That leads to the input from the connected microphone to not be played back automatically. If you want to hear it on the output, you need to use the command line tool alsaloop can be used for this.
€ 89,95
Members € 80,96
IQaudIO Pi-DAC+ (for Raspberry Pi)
IQaudio DAC+ is an audio output HAT for all generations of Raspberry Pi from Raspberry Pi1 Model B+ onwards, and supports 24‑bit 192 kHz high-resolution digital audio. It uses the Texas Instruments PCM5122 DAC to deliver stereo analogue audio to a pair of phono connectors, and also supports a dedicated headphone amplifier.
€ 29,95
Members € 26,96
IQaudIO DigiAMP+ DAC & Class D Amplifier for Raspberry Pi
IQaudio DigiAMP+ connects to the 40-pin GPIO header of Raspberry Pi 1 Model B+, Raspberry Pi 2, Raspberry Pi 3, or Raspberry Pi 4 with no need for soldering. DigiAMP+ must be powered from an external supply, and requires a 12-24 V DC power source to its 5.5 mm x 2.5 mm barrel connector. The XP Power VEC65US19 power supply is recommended for use with DigiAMP+. DigiAMP+ has been designed to provide power to the Raspberry Pi-plus-DigiAMP+ combination in parallel, delivering 5.1 V @ 2.5 A to your Raspberry Pi.
€ 39,95
Members € 35,96
Arduino Arduino Uno R4 WiFi
The Arduino Uno R4 is powered by the Renesas RA4M1 32-bit ARM Cortex-M4 processor, providing a significant boost in processing power, memory, and functionality. The WiFi version comes with an ESP32-S3 WiFi module in addition to the RA4M1, expanding creative opportunities for makers and engineers. The Uno R4 Minima is an affordable option for those who don't need the additional features. The Arduino Uno R4 runs at 48 MHz, which provides a 3x increase over the popular Uno R3. Additionally, SRAM has been upgraded from 2 kB to 32 kB, and flash memory from 32 kB to 256 kB to support more complex projects. Responding to community feedback, the USB port is now USB-C, and the maximum power supply voltage has been raised to 24 V with an enhanced thermal design. The board includes a CAN bus and an SPI port, enabling users to reduce wiring and perform parallel tasks by connecting multiple shields. A 12-bit analog DAC is also provided on the board. The Arduino Uno R4 comes in 2 versions (Minima and WiFi) and offers the following new features compared to the Uno R3: Arduino Uno R4 Minima Arduino Uno R4 WiFi USB-C connector USB-C connector RA4M1 from Renesas (Cortex-M4) RA4M1 from Renesas (Cortex-M4) HID device (emulate a mouse or a keyboard) HID device (emulate a mouse or a keyboard) Improved power section (up to 24 V through VIN) Improved power section (up to 24 V through VIN) CAN bus CAN bus DAC (12 bits) DAC (12 bits) Op amp Op amp WiFi/Bluetooth LE Fully-addressable LED matrix (12x8) Qwiic I²C connector RTC (with support for a buffer battery) Runtime errors diagnostics Model Comparison Uno R3 Uno R4 Minima Uno R4 WiFi Microcontroller Microchip ATmega328P (8-bit AVR RISC) Renesas RA4M1 (32-bit ARM Cortex-M4) Renesas RA4M1 (32-bit ARM Cortex-M4) Operating Voltage 5 V 5 V 5 V Input Voltage 6-20 V 6-24 V 6-24 V Digital I/O Pins 14 14 14 PWM Digital I/O Pins 6 6 6 Analog Input Pins 6 6 6 DC Current per I/O Pin 20 mA 8 mA 8 mA Clock Speed 16 MHz 48 Mhz 48 Mhz Flash Memory 32 KB 256 KB 256 KB SRAM 2 KB 32 KB 32 KB USB USB-B USB-C USB-C DAC (12 bit) – 1 1 SPI 1 2 2 I²C 1 2 2 CAN – 1 1 Op amp – 1 1 SWD – 1 1 RTC – – 1 Qwiic I²C connector – – 1 LED Matrix – – 12x8 (96 red LEDs) LED_BUILTIN 13 13 13 Dimensions 68.6 x 53.4 mm 68.9 x 53.4 mm 68.9 x 53.4 mm Downloads Datasheet Schematics
€ 29,95
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Arduino Arduino Uno R4 Minima
The Arduino Uno R4 is powered by the Renesas RA4M1 32-bit ARM Cortex-M4 processor, providing a significant boost in processing power, memory, and functionality. The WiFi version comes with an ESP32-S3 WiFi module in addition to the RA4M1, expanding creative opportunities for makers and engineers. The Uno R4 Minima is an affordable option for those who don't need the additional features. The Arduino Uno R4 runs at 48 MHz, which provides a 3x increase over the popular Uno R3. Additionally, SRAM has been upgraded from 2 kB to 32 kB, and flash memory from 32 kB to 256 kB to support more complex projects. Responding to community feedback, the USB port is now USB-C, and the maximum power supply voltage has been raised to 24 V with an enhanced thermal design. The board includes a CAN bus and an SPI port, enabling users to reduce wiring and perform parallel tasks by connecting multiple shields. A 12-bit analog DAC is also provided on the board. The Arduino Uno R4 comes in 2 versions (Minima and WiFi) and offers the following new features compared to the Uno R3: Arduino Uno R4 Minima Arduino Uno R4 WiFi USB-C connector USB-C connector RA4M1 from Renesas (Cortex-M4) RA4M1 from Renesas (Cortex-M4) HID device (emulate a mouse or a keyboard) HID device (emulate a mouse or a keyboard) Improved power section (up to 24 V through VIN) Improved power section (up to 24 V through VIN) CAN bus CAN bus DAC (12 bits) DAC (12 bits) Op amp Op amp WiFi/Bluetooth LE Fully-addressable LED matrix (12x8) Qwiic I²C connector RTC (with support for a buffer battery) Runtime errors diagnostics Model Comparison Uno R3 Uno R4 Minima Uno R4 WiFi Microcontroller Microchip ATmega328P (8-bit AVR RISC) Renesas RA4M1 (32-bit ARM Cortex-M4) Renesas RA4M1 (32-bit ARM Cortex-M4) Operating Voltage 5 V 5 V 5 V Input Voltage 6-20 V 6-24 V 6-24 V Digital I/O Pins 14 14 14 PWM Digital I/O Pins 6 6 6 Analog Input Pins 6 6 6 DC Current per I/O Pin 20 mA 8 mA 8 mA Clock Speed 16 MHz 48 Mhz 48 Mhz Flash Memory 32 KB 256 KB 256 KB SRAM 2 KB 32 KB 32 KB USB USB-B USB-C USB-C DAC (12 bit) – 1 1 SPI 1 2 2 I²C 1 2 2 CAN – 1 1 Op amp – 1 1 SWD – 1 1 RTC – – 1 Qwiic I²C connector – – 1 LED Matrix – – 12x8 (96 red LEDs) LED_BUILTIN 13 13 13 Dimensions 68.6 x 53.4 mm 68.9 x 53.4 mm 68.9 x 53.4 mm Downloads Datasheet Schematics
€ 19,95
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Elektor Classics Elektor Audio Collection (USB Stick)
Some Highlights from the contents Surround-sound decoder Compact amp Sampling rate converter Battery powered preamplifier Titan 2000 amplifier Crescendo Millennium amplifier Audio-DAC/ADC IR-S/PDFI receiver and transmitter High-End Power Amp Hi-fi Wireless Headset Paraphase Tone Control and more… Using Adobe Reader you are able to browse and search the articles on your computer, as well as print texts, circuit diagrams and PCB layouts.
€ 69,95€ 39,95
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Sequent Microsystems Home Automation V4 8-Layer Stackable HAT for Raspberry Pi
The Home Automation HAT uses only pluggable connectors. In addition, the latest release (V4.0 and up) has two new communication ports: 1-Wire and RS485. The card uses only 5 V power. On-board step-up power supply generates 12 V to power the 0-10 V analog outputs. A general purpose push-button, wired directly to a Raspberry Pi GPIO pin, can be used to shut down Raspberry Pi without a keyboard, or to force any output to a desired state. Ideal solution for your Raspberry Pi Home Automation projects. Read temperatures in up to 8 zones with analog inputs. Control your heating and cooling system with the 8 onboard relays. Use the 8 optically isolated digital inputs for your security system. Activate the hardware watchdog to monitor and power cycle the Raspberry Pi in case of software lockup. Control four-light systems with the four PWM open-drain outputs (you supply external power up to 24 V). Control four light dimmers using 0-10 V outputs. Compatibility The card is compatible with all Raspberry Pi versions from Zero to 4. It shares the I²C bus using only two of the Raspberry Pi’s GPIO pins to manage all eight cards. This feature leaves the remaining 24 GPIOs available for the user. Power Requirements The Home Automation card needs 5 V to operate and can be powered from Raspberry Pi or from its own pluggable connector. The onboard relay coils are also powered from the 5 V. An on-board 5V to 12V step-up power supply generates the voltage to drive the 0-10 V analog outputs. A local 3.3 V regulator powers the rest of the circuitry. The card needs 50 mA to operate with all relays off. Each relay needs up to 80 mA to turn on. Relays The 8 on-board relays have contacts brought out to heavy duty pluggable connectors, which make the card easy to use when multiple cards are stacked up. Relays are grouped in two sections of four relays each, with one common terminal and one N-O contact for each relay. Relays are rated 10 A/24 VDC and 250 VAC, but due to the board geometry limitation, the relays can switch only 3 A and 24 V, AC or DC. Status LEDs show when RELAYS are ON or OFF. Stacking Multiple Cards Up to eight Home Automation cards can be stacked on your Raspberry Pi. Each card is identified by jumpers you install to indicate the level in the stack. Cards can be installed in any order. The three position jumper on the upper right corner of the card selects the stack level. Features Eight relays with status LEDs and and N.O contacts Eight layer stackable Eight 12-bit A/D inputs, 250 Hz sample rate Four 13-bit DAC outputs (0-10 V dimmers) Four PWM 24 V/4 A open-drain outputs Eight optically isolated digital inputs Contact closure/Event counters up to 500 Hz Four Quadrature Encoder inputs 26 GPIOs from Raspberry Pi available 1-WIRE and RS485 communication ports Pluggable Connectors 26-16 AWG for all ports On-board hardware watchdog On-board resettable fuse Reverse power supply protection Brass stand-offs, screws and nuts included Hardware self-test with loop-back cable Open source hardware, schematics available 32-bit Processor running at 64 MHz Uses only I²C port (address 0x28..0x2f ), all GPIO pins available Specifications Power supply: Pluggable Connector, 5 V/3 A Power consumption: 50 mA (all relays off), 700 mA (all relays on) On board resettable fuse: 3 A Open Drain outputs: maximum 3 A, 24 V Relays 1,2,3,4,5,8: N-O contacts, 6 A/24 VAC or DC Relays 6,7: 3 A/24 VAC or DC Analog Inputs: Maximum input voltage: 3 V Input Impedance: 50 KΩ Resolution: 12 bits Sample rate: 250 samples/sec. DAC Outputs: Resistive load: Minimum 1 KΩ Accuracy: ±1% Opto-isolated Digital Inputs: Input Forward Current: Typical 5 mA, maximum 50 mA Input Series Resistor: 1K Input Reverse Voltage: 5 V Input Forward Voltage: 25 V @ 10 mA Isolation Resistance: Minimum 1012 Ω Included Home Automation stackable Card for Raspberry Pi with self-test Card Mounting hardware 4x M2.5x18 mm male-female brass standoffs 4x M2.5x5 mm brass screws 4x M2.5 brass nuts 2x Stack level Jumpers All required Connector Plugs Laminated Plastic Card showing IO Pinout Downloads User's Guide Open Source Hardware Schematic 2D CAD Drawing Command Line Python Libraries Node-RED Nodes Domoticz Plugin OpenPLC
€ 59,95
Members € 53,96
Elektor Digital Mastering the Arduino Uno R4 (E-book)
Programming and Projects for the Minima and WiFiBased on the low-cost 8-bit ATmega328P processor, the Arduino Uno R3 board is likely to score as the most popular Arduino family member so far, and this workhorse has been with us for many years. Recently, the new Arduino Uno R4 was released, based on a 48-MHz, 32-bit Cortex-M4 processor with a huge amount of SRAM and flash memory. Additionally, a higher-precision ADC and a new DAC are added to the design. The new board also supports the CAN Bus with an interface.Two versions of the board are available: Uno R4 Minima, and Uno R4 WiFi. This book is about using these new boards to develop many different and interesting projects with just a handful of parts and external modules, which are available as a kit from Elektor. All projects described in the book have been fully tested on the Uno R4 Minima or the Uno R4 WiFi board, as appropriate.The project topics include the reading, control, and driving of many components and modules in the kit as well as on the relevant Uno R4 board, including LEDs 7-segment displays (using timer interrupts) LCDs Sensors RFID Reader 4×4 Keypad Real-time clock (RTC) Joystick 8×8 LED matrix Motors DAC (Digital-to-analog converter) LED matrix WiFi connectivity Serial UART CAN bus Infrared controller and receiver Simulators … all in creative and educational ways with the project operation and associated software explained in great detail.
€ 29,95
Members € 23,96
Pimoroni Pimoroni Raspberry Pi Pico Audio Pack (Line-Out and Headphone Amp)
Pico Audio Pack uses its PCM5100A DAC to output up to 32-bit, 384 KHz stereo audio along its 3.5 mm line out connector, ready for plugging into an external amp or powered speakers. If you're after something a little louder for your ears, it can also pump out amplified stereo audio from its 3.5 mm headphone jack.You could generate interesting noises with code on your Pico to output into a lo-fi synth, or hook your Pico up to another device and use it as a custom USB sound card.Features PCM5100A stereo DAC (datasheet) PAM8908JER stereo headphone amp (datasheet) 3.5 mm stereo headphone jack connector 3.5 mm stereo line out jack connector Switch to adjust headphone amp gain (low / high) Pre-soldered female headers for attaching to Pico Compatible with Raspberry Pi Pico Fully assembled No soldering required (as long as your Pico has header pins attached). Dimensions: approx 53 x 29 x 11 mm (L x W x H, including headers and audio jacks) Programmable with C/C++ The labels on the underside of Pico Audio will show you which way round to plug it into your Pico ‐ just match up the USB port with the markings on the board.
€ 19,95
Members € 17,96
Mastering the Arduino Uno R4
Programming and Projects for the Minima and WiFiBased on the low-cost 8-bit ATmega328P processor, the Arduino Uno R3 board is likely to score as the most popular Arduino family member so far, and this workhorse has been with us for many years. Recently, the new Arduino Uno R4 was released, based on a 48-MHz, 32-bit Cortex-M4 processor with a huge amount of SRAM and flash memory. Additionally, a higher-precision ADC and a new DAC are added to the design. The new board also supports the CAN Bus with an interface.Two versions of the board are available: Uno R4 Minima, and Uno R4 WiFi. This book is about using these new boards to develop many different and interesting projects with just a handful of parts and external modules, which are available as a kit from Elektor. All projects described in the book have been fully tested on the Uno R4 Minima or the Uno R4 WiFi board, as appropriate.The project topics include the reading, control, and driving of many components and modules in the kit as well as on the relevant Uno R4 board, including LEDs 7-segment displays (using timer interrupts) LCDs Sensors RFID Reader 4×4 Keypad Real-time clock (RTC) Joystick 8×8 LED matrix Motors DAC (Digital-to-analog converter) LED matrix WiFi connectivity Serial UART CAN bus Infrared controller and receiver Simulators … all in creative and educational ways with the project operation and associated software explained in great detail.
€ 34,95
Members € 31,46
Elektor Bundles Mastering the Arduino Uno R4 Bundle
Mastering the Arduino Uno R4 Based on the low-cost 8-bit ATmega328P processor, the Arduino Uno R3 board is likely to score as the most popular Arduino family member so far, and this workhorse has been with us for many years. Recently, the new Arduino Uno R4 was released, based on a 48-MHz, 32-bit Cortex-M4 processor with a huge amount of SRAM and flash memory. Additionally, a higher-precision ADC and a new DAC are added to the design. The new board also supports the CAN Bus with an interface. Two versions of the board are available: Uno R4 Minima, and Uno R4 WiFi. This book is about using these new boards to develop many different and interesting projects with just a handful of parts and external modules, which are available as a kit from Elektor. All projects described in the book have been fully tested on the Uno R4 Minima or the Uno R4 WiFi board, as appropriate. The project topics include the reading, control, and driving of many components and modules in the kit as well as on the relevant Uno R4 board, including LEDs 7-segment displays (using timer interrupts) LCDs Sensors RFID Reader 4×4 Keypad Real-time clock (RTC) Joystick 8×8 LED matrix Motors DAC (Digital-to-analog converter) LED matrix WiFi connectivity Serial UART CAN bus Infrared controller and receiver Simulators … all in creative and educational ways with the project operation and associated software explained in great detail. Arduino Uno R4 Minima The Arduino Uno R4 is powered by the Renesas RA4M1 32-bit ARM Cortex-M4 processor, providing a significant boost in processing power, memory, and functionality. The WiFi version comes with an ESP32-S3 WiFi module in addition to the RA4M1, expanding creative opportunities for makers and engineers. The Uno R4 Minima is an affordable option for those who don't need the additional features. The Arduino Uno R4 runs at 48 MHz, which provides a 3x increase over the popular Uno R3. Additionally, SRAM has been upgraded from 2 kB to 32 kB, and flash memory from 32 kB to 256 kB to support more complex projects. Responding to community feedback, the USB port is now USB-C, and the maximum power supply voltage has been raised to 24 V with an enhanced thermal design. The board includes a CAN bus and an SPI port, enabling users to reduce wiring and perform parallel tasks by connecting multiple shields. A 12-bit analog DAC is also provided on the board. Specifications Microcontroller Renesas RA4M1 (ARM Cortex-M4) USB USB-C Programming Port Pins Digital I/O Pins 14 Pins Analog input pins 6 DAC 1 PWM pins 6 Communication UART 1x I²C 1x SPI 1x CAN 1x CAN Bus Power Circuit operating voltage 5 V Input voltage (VIN) 6-24 V DC Current per I/O Pin 8 mA Clock speed Main core 48 MHz Memory RA4M1 256 kB Flash, 32 kB RAM Dimensions 68.9 x 53.4 mm Downloads Datasheet Schematics This bundle contains: Mastering the Arduino Uno R4 (normal price: €35) Arduino Uno R4 Minima (normal price: €20)
€ 54,95€ 47,95
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Arduino Arduino MKR Zero
The Arduino MKR Zero is a development board for music makers! With an SD card holder and dedicated SPI interfaces (SPI1), you are able to play music files without extra hardware. The MKR Zero brings you the power of a Zero in the smaller format established by the MKR form factor. The MKR Zero board acts as a great educational tool for learning about 32-bit application development. It has an on-board SD connector with dedicated SPI interfaces (SPI1) that allows you to play with MUSIC files with no extra hardware! The board is powered by Atmel’s SAMD21 MCU, which features a 32-bit ARM Cortex M0+ core. The board contains everything needed to support the microcontroller; simply connect it to a computer with a micro-USB cable or power it by a LiPo battery. The battery voltage can also be monitored since a connection between the battery and the analog converter of the board exists. Specifications Microcontroller SAMD21 ARM Cortex-M0+ 32-bit low power Board power supply (USB/VIN) 5 V Supported battery Li-Po single cell, 3.7 V, 700 mAh minimum DC current for 3.3 V pin 600 mA DC current for 5 V pin 600 mA Circuit operating voltage 3.3 V Digital I/O pins 22 PWM pins 12 (0, 1, 2, 3, 4, 5, 6, 7, 8, 10, A3 - or 18 -, A4 -or 19) UART 1 SPI 1 I²C 1 Analog input pins 7 (ADC 8/10/12 bit) Analog output pins 1 (DAC 10 bit) External interrupts 10 (0, 1, 4, 5, 6, 7, 8, A1 -or 16-, A2 - or 17) DC current per I/O pin 7 mA Flash memory 256 KB Flash memory for bootloader 8 KB SRAM 32 KB EEPROM No Clock speed 32.768 kHz (RTC), 48 MHz LED_BUILTIN 32 Downloads Datasheet Eagle Files Schematics Fritzing Pinout
€ 36,95
Members € 33,26