GODIYMODULES MAX98357A I2S 3W Class D Amplifier Breakout Module User Manual

1. Kupu Whakataki

The GODIYMODULES MAX98357A I2S Class D Amplifier Breakout Module is designed to convert standard I2S digital audio input into an amplified analog signal, directly driving a speaker. This module integrates both a Digital-to-Analog Converter (DAC) and an amplifier into a single compact unit, making it suitable for projects requiring amplified sound output from I2S-compatible microcontrollers and microcomputers.

It is compatible with various platforms, including Raspberry Pi, Arduino Zero, and ESP32, offering a straightforward solution for audio output in embedded systems.

2. Nga ahuatanga

Integrated I2S DAC and Class D Amplifier for direct speaker drive.
Operates from a wide voltage range of 2.7V to 5.5V DC, ideal for portable applications.
Built-in thermal and over-current protection for enhanced reliability.
Supports I2S standard digital audio input with 3.3V or 5V logic data.
Bridge-Tied Load (BTL) output configuration for direct speaker connection.
Adjustable gain settings: 3dB, 6dB, 9dB (default), 12dB, or 15dB via the GAIN pin.
Shutdown/Mode pin for chip shutdown and I2S audio channel selection (Left, Right, or (L+R)/2 mono mix).
Compatible with Raspberry Pi, Arduino Zero, ESP32, and other microcontrollers with I2S audio outputs.

3. Whakatakotoranga

Tipi	MAX98357
Ampmomo Momo	Te akomanga D
Output Power (5V supply)	3.2W at 4Ω (10% THD), 1.8W at 8Ω (10% THD)
PSRR (Power Supply Rejection Ratio)	77 dB typical, 1KHz
I2S Sampreiti reiti	8-96kHz
MCLK Requirement	No MCLK required
Selectable Pin Gains	3dB, 6dB, 9dB, 12dB, 15dB
Voltage	2.7 Volts (DC)
Tukunga Mōrahi Voltage	5.5 Volts (DC)
Momo Whakaeke	Maunga Mata
Taumaha	Approximately 5g per module

4. Tatūnga me nga Hononga

This section details the pinout and connection procedures for integrating the MAX98357A amplifier module into your project.

4.1 Kōwae Nekeview

Two MAX98357A I2S amplifier modules with pin headers and screw terminals. — Figure 4.1: Two MAX98357A I2S amplifier modules, showing the top view with components and included pin headers and screw terminals.

The module comes with pin headers for digital connections and screw terminals for speaker output. Ensure proper soldering of the pin headers if they are not pre-attached.

4.2 Pinout Description

Detailed pinout diagram for the MAX98357A I2S ampkōwae oranga. — Figure 4.2: Pinout diagram of the MAX98357A module, illustrating the function of each pin for connection.

Refer to the following table for a detailed description of each pin:

Pin	Tapanga	Whakaahuatanga
1	VCC	Positive power supply terminal. Connect to DC 2.5V to 5.5V.
2	GND	Hononga whenua.
3	SD	Shutdown/Mode pin. Pulling this pin low puts the device in shutdown mode. This pin also controls channel selection.
4	KAUPAPA	Gain selection pin. Connect to VCC, GND, or specific resistor values to set gain (3dB, 6dB, 9dB, 12dB, 15dB). Default is 9dB. In TDM mode, gain is fixed at 12dB.
5	DIN	Digital audio input signal (I2S Data In).
6	BCLK	Bit Clock input for I2S communication.
7	LRC	Left/Right Clock (Word Select) for I2S and LJ modes. Synchronous clock is used in TDM mode.

4.3 Nga Tohutohu Waea

Hononga Hiko: Connect the VCC pin to your power supply (2.7V-5.5V DC) and GND to the system ground.
I2S Audio Input:
- Connect DIN to the I2S Data Out pin of your microcontroller (e.g., Raspberry Pi, ESP32).
- Connect BCLK to the I2S Bit Clock pin.
- Connect LRC to the I2S Left/Right Clock (Word Select) pin.
Putanga Kaikōrero: Connect your 4-8Ω speaker directly to the two speaker output terminals (labeled with '+' and '-' or simply the screw terminals). The outputs are "Bridge Tied" and should not be connected to ground or another ampkaikawe
Gain Setting (Optional): The default gain is 9dB. To change the gain, manipulate the GAIN pin:
- Connect GAIN to GND for 3dB.
- Connect GAIN to VCC for 15dB.
- Other gain settings (6dB, 12dB) can be achieved by connecting specific pull-up or pull-down resistors. Refer to the MAX98357 datasheet for exact resistor values.
Shutdown/Mode Control (Optional):
- Pull the SD pin low to put the amplifier into shutdown mode, conserving power.
- Ma te taunoa, ko te amplifier outputs an (L+R)/2 stereo mix into mono. By adding a resistor to the SD pin, you can configure it to output only the left or right channel. Refer to the MAX98357 datasheet for resistor configurations.

Single MAX98357A I2S amplifier module with pin headers and screw terminal, ready for connection. — Figure 4.3: A single MAX98357A module, illustrating its compact size and connection points.

5. Mahi

Once the MAX98357A module is correctly wired to your microcontroller and speaker, its operation is primarily controlled by the I2S audio data stream and the configuration of the GAIN and SD pins.

Whakahiko: Apply power within the 2.7V-5.5V DC range to the VCC and GND pins. The amplifier will initialize.
Whakahoki Ororongo: Begin sending I2S digital audio data from your microcontroller to the DIN, BCLK, and LRC pins. The module will automatically decode and amplify the audio, outputting it to the connected speaker.
Mana Rōrahi: The overall volume can be adjusted by changing the digital audio signal level from your microcontroller or by modifying the hardware gain setting via the GAIN pin as described in Section 4.3.
Whakaweto: To conserve power, pull the SD pin low. This will put the amplifier into a low-power shutdown state. To resume operation, release the SD pin (allow it to float or pull it high, depending on your configuration).

For stereo output, two MAX98357A modules can be used, with one configured for the left channel and the other for the right channel via the SD pin, and both receiving the same BCLK and LRC signals but different DIN signals (left data for one, right data for the other).

6. Tiaki

The MAX98357A I2S Class D Amplifier Breakout Module is a robust electronic component designed for long-term operation with minimal maintenance.

Te horoi: If necessary, gently clean the module with a dry, soft brush or compressed air to remove dust. Avoid using liquids or solvents.
Nga Tikanga Taiao: Operate the module within typical indoor environmental conditions. Avoid exposure to extreme temperatures, high humidity, or corrosive environments.
Tirotiro tinana: Periodically inspect connections for any signs of corrosion or loose wiring, especially for speaker terminals in high-vibration environments.

No user-serviceable parts are present on the module. Any repairs should be performed by qualified personnel.

7. Te Raru

Raruraru	Take pea	Rongoā
Kaore he putanga ororongo	Incorrect wiring (power, I2S, or speaker). He iti rawa te tuku hiko. SD pin is low (shutdown mode). No I2S data being sent or incorrect I2S configuration. Kaikōrero hapa.	Verify all connections according to Section 4.3. Ensure power supply is within 2.7V-5.5V and can provide sufficient current. Check the state of the SD pin; ensure it is not pulled low unless intended for shutdown. Confirm I2S data is being transmitted correctly from your microcontroller and that its I2S settings match the module's requirements. Test with a known working speaker.
Oro whakapohehe, haruru rānei	Power supply noise. Kore orite te parenga orooro. He tiketike rawa te tautuhinga whakanui. Poor quality I2S signal. Speaker output connected to ground or another ampkaikawe	Use a stable, clean power supply. Add decoupling capacitors if necessary. Ensure speaker impedance is 4-8Ω. Adjust the GAIN pin to a lower setting. Verify the integrity of your I2S signal lines. Ensure speaker outputs are connected directly to the speaker only.
Raro iti	Gain setting too low. Low input audio signal level.	Adjust the GAIN pin to a higher setting (up to 15dB). Increase the digital audio signal level from your microcontroller.

8. Pūtāhui me te Tautoko

Information regarding product warranty and customer support for the GODIYMODULES MAX98357A I2S 3W Class D Amplifier Breakout Module was not provided in the available product data. Please refer to the retailer or manufacturer's website for specific warranty terms and support contact information.

	OLIMEX MOD-ESP32-C5 Development Board User Manual Comprehensive user manual for the OLIMEX MOD-ESP32-C5 development board. Details hardware specifications, UEXT connector pinout and wiring, LED status indicators, software programming options with Espressif IDF and Arduino, and revision history. Features ESP32-C5-WROOM-N8R4 module with WiFi 6, Bluetooth 5 LE, Zigbee, Thread, and Matter.
	Configuring Ethernet Interfaces on Cisco NCS Routers A comprehensive guide detailing the configuration of various Ethernet interfaces and features on Cisco NCS 5500 Series routers, including Gigabit Ethernet, OTN, LLDP, PFC, DWDM, and breakout modes.
	Growatt MOD TL3-X3 Series Photovoltaic Inverter Manual Kaiwhakamahi Ko te pukapuka kaiwhakamahi matawhānui mo te raupapa Growatt MOD TL3-X3 o nga kaitahuri photovoltaic, e hipoki ana i te whakaurunga, te waea, te mahi, te raruraru, me nga waahanga hangarau. Akohia me pehea te whakauru me te pai o te whakauru me te whakahaere i to hurihanga solar Growatt.
	Ferroli Omnia M 3.2: Effiziente Luft-Wasser-Wärmepumpe für Heizung, Kühlung und Warmwasser Entdecken Sie die Ferroli Omnia M 3.2, eine Monoblock-Luft-Wasser-Wärmepumpe me DC-Inverter-Technologie me R32-Kältemittel. Bietet hohe Energieeffizienz (bis A+++), leisen Betrieb and flexible Installation für Heizung, Kühlung und Brauchwarmwasser.
	Pukapuka Kaiwhakamahi mō te Pūwhakahuri Ranu Growatt MOD 3-15KTL3-HU He pukapuka kaiwhakamahi whānui mō ngā pūwhakahuri hiko pūngao rā Growatt MOD 3-15KTL3-HU raupapa, e kapi ana i te tāutanga, te whakahaere, te tiaki, te haumaru, me te rapurongoā mō te mahi tino pai o te pūnaha PV me te rokiroki pūngao.
	Kustom III Bass Amplifier Pukapuka a te Kaipupuri Te pukapuka a te rangatira mo te Kustom III Bass Amphe kaiwhakatakoto whakaaro, e whakaatu ana i ona ahuatanga, i nga mana whakahaere, i nga whakaritenga hangarau, i nga korero whakamana, me nga hoahoanga o roto.

GODIYMODULES Mod-MAX98357-002