ADAU1701T

Audio Processor with Integrated ADCs and DACs

The ADAU1701T is a audio processor with integrated adcs and dacs from Analog Devices Inc.. View the full ADAU1701T datasheet below including key specifications, absolute maximum ratings.

Manufacturer

Analog Devices Inc.

Key Specifications

Parameter	Value
Clock Rate	50MHz
Interface	I2C, SPI
Mounting Type	Surface Mount
On-Chip RAM	12kB
Operating Temperature	0°C ~ 70°C (TA)
Package / Case	48-LQFP
Supplier Device Package	48-LQFP (7x7)
Type	Sigma
Voltage - Core	1.80V
Voltage - I/O	3.30V

Overview

Part: ADAU1701 — Analog Devices

Type: 28-/56-Bit Audio Processor with ADCs and DACs

Description: A complete single-chip audio system featuring a 28-/56-bit audio DSP, two 100 dB SNR ADCs, four 104 dB SNR DACs, and microcontroller-like control interfaces, supporting sampling rates up to 192 kHz.

Operating Conditions:

Supply voltage: 1.8 V (digital), 3.3 V (analog, PLL, I/O)
Operating temperature: 0 to +70 °C ambient
Master clock input: 12.288 MHz
Sampling rates: up to 192 kHz

Absolute Maximum Ratings:

Max supply voltage (AVDD, IOVDD): 4.0 V
Max supply voltage (DVDD): 2.2 V
Max junction temperature: 135 °C
Max storage temperature: -65 to +150 °C

Key Specs:

ADC SNR (A-Weighted): 100 dB
ADC THD + N: -83 dB (at -3 dB full-scale)
DAC SNR (A-Weighted): 104 dB
DAC THD + N: -90 dB (at -1 dB full-scale)
Analog Current (AVDD and PVDD): 50 mA (typ), 85 mA (max)
Digital Current (DVDD): 40 mA (typ), 60 mA (max)
Operation Dissipation (AVDD, DVDD, PVDD): 286.5 mW (typ)
I2C Port Max SCL frequency: 400 kHz
SPI Port Max CCLK frequency: 6.25 MHz

Features:

28-/56-bit, 50 MIPS digital audio processor
Self-boot from serial EEPROM
Auxiliary ADC with 4-input mux for analog control
GPIOs for digital controls and outputs
Fully programmable with SigmaStudio graphical tool
On-chip voltage regulator for 3.3 V systems
Flexible serial data I/O ports (I2S-compatible, left/right-justified, TDM modes)

Applications:

Multimedia speaker systems
MP3 player speaker docks
Automotive head units
Digital televisions
Studio monitors
Musical instrument effects processors

Package:

48-lead, plastic LQFP

Features

28-/56-bit, 50 MIPS digital audio processor 2 ADCs: SNR of 100 dB, THD + N of -83 dB 4 DACs: SNR of 104 dB, THD + N of -90 dB Complete standalone operation Self-boot from serial EEPROM Auxiliary ADC with 4-input mux for analog control GPIOs for digital controls and outputs Fully programmable with SigmaStudio graphical tool 28-bit × 28-bit multiplier with 56-bit accumulator for full double-precision processing Clock oscillator for generating a master clock from crystal PLL for generating master clock from 64 × fS, 256 × fS,

384 × fS, or 512 × fS clocks

Flexible serial data input/output ports with I 2 S-compatible, left-justified, right-justified, and TDM modes Sampling rates of up to 192 kHz are supported On-chip voltage regulator for compatibility with 3.3 V systems 48-lead, plastic LQFP

Applications

Multimedia speaker systems MP3 player speaker docks Automotive head units Minicomponent stereos Digital televisions Studio monitors Speaker crossovers Musical instrument effects processors

In-seat sound systems (aircraft/motor coaches)

Pin Configuration

Figure 7. 48-Lead LQFP Pin Configuration

Table 10. Pin Function Descriptions

Pin No.	Mnemonic	Type 1	Description
1, 37, 42	AGND	PWR	Analog Ground Pin. The AGND, DGND, and PGND pins can be tied directly together in a common ground plane. Decouple AGND to an AVDDpin with a 100 nF capacitor.
2	ADC0	A_IN	Analog Audio Input 0. Full-scale 100 μA rms input. Current input allows input voltage level to be scaled with an external resistor. An 18 kΩ resistor gives a 2V rms full-scale input. See the Audio ADCs section for details.
3	ADC_RES	A_IN	ADCReference Current. Set the full-scale current of the ADCs with an external 18 kΩ resistor connected between this pin and ground. See the Audio ADCs section for details.
4	ADC1	A_IN	Analog Audio Input 1. Full-scale 100 μA rms input. Current input allows the input voltage level to be scaled with an external resistor. An 18 kΩ resistor gives a 2V rms full-scale input.
5	RESET	D_IN	Active Low Reset Input. Reset is triggered on a high-to-low edge, and the ADAU1701 exits reset on a low-to-high edge. For more information about initialization, see the Power-Up Sequence section for details.
6	SELFBOOT	D_IN	Enable/Disable Self-Boot. SELFBOOT selects control port (low) or self-boot (high). Setting this pin high initiates aself-boot operationwhentheADAU1701is brought out of a reset. This pin can be tied directly to the control voltage or pulled up/down with a resistor. See the Self-Boot section for details.
7	ADDR0	D_IN	I 2 C and SPI Address 0. In combination with ADDR1 function on Pin 20, this pin allows up to four ADAU1701 devices to be used on the same I 2 C bus and up to two ICs to be used with a common SPI CLATCH signal. See the I 2 C Port section for details.
8	MP4	D_IO	Multipurpose GPIO or Serial Input Port LRCLK (INPUT_LRCLK). See the Multipurpose Pins section for more details.
9	MP5	D_IO	Multipurpose GPIO or Serial Input Port BCLK (INPUT_BCLK). See the Multipurpose Pins section for more details.
10	MP1	D_IO	Multipurpose GPIO or Serial Input Port Data 1 (SDATA_IN0). See the Multipurpose Pins section for more details.
11	MP0	D_IO	Multipurpose GPIO or Serial Input Port Data 0 (SDATA_IN1). See the Multipurpose Pins section for more details.
12, 25	DGND	PWR	Digital Ground Pin. The AGND, DGND, and PGND pins can be tied directly together in a common ground plane. Decouple DGNDtoaDVDDpin with a 100 nF capacitor.
13, 24	DVDD	PWR	1.8V Digital Supply. This can be supplied either externally or generated from a 3.3V supply with the on-board 1.8V regulator. Decouple DVDDto DGNDwith a 100 nF capacitor.

Pin No.	Mnemonic	Type 1	Description
14	MP7	D_IO	Multipurpose GPIO or Serial Output Port Data 1 (SDATA_OUT1). See the Multipurpose Pins section for more details.
15	MP6	D_IO	Multipurpose GPIO, Serial Output Port Data 0, orTDMData Output (SDATA_OUT0). See the Multipurpose Pins section for more details.
16	MP10	D_IO	Multipurpose GPIO or Serial Output Port LRCLK (OUTPUT_LRCLK). See the Multipurpose Pins section for more details.
17	VDRIVE	A_OUT	Drive for 1.8V Regulator. The base of the voltage regulator external PNP transistor is driven from VDRIVE. See theVoltage Regulator section for details.
18	IOVDD	PWR	Supply for Input and Output Pins. The voltage on this pin sets the highest input voltage that should be seen on the digital input pins. This pin is also the supply for the digital output signals on the control port and MPpins. Always set IOVDD to 3.3 V. The current draw of this pin is variable because it is dependent on the loads of the digital outputs.
19	MP11	D_IO	Multipurpose GPIO or Serial Output Port BCLK (OUTPUT_BCLK). See the Multipurpose Pins section for more details.
20	ADDR1/CDATA/WB	D_IN	I 2 C Address 1/SPI Data Input/EEPROM Write Back Trigger. This is a multifunction pin as follows: ADDR1: I 2 C Address 1. In combination with ADDR0, this sets the I 2 C address of the IC so that four ADAU1701 devices can be used on the same I 2 C bus. See the I 2 C Port section for details. CDATA: SPI Data Input. See the SPI Port section for details. WB: EEPROMWritebackTrigger.A rising (default) or falling (if set in the EEPROM messages) edge on this pin triggers a writeback of the interface registers to the external EEPROM. This function can be used to save parameter data on power-down. See the Self-Boot section for
21	CLATCH/WP	D_IO	details. SPI Latch Signal/Self-Boot EEPROMWrite Protect. This is a multifunction pin as follows: CLATCH: SPI Latch Signal. Must go low at the beginning of an SPI transaction and high at the end of a transaction. Each SPI transaction can take a different number of cycles on the CCLK pin to complete, depending on the address and read/write bit that are sent at the beginning of the SPI transaction. See the SPI Port section for details. WP: Self-Boot EEPROMWrite Protect. This pin is an open-collector output when in self-boot mode. The ADAU1701 pulls this low to enable writes to an external EEPROM. This pin
22	SDA/COUT	D_IO	should be pulled high to 3.3 V. See the Self-Boot section for details. I 2 C Data/SPI Data Output. This is a multifunction pin, as follows: SDA: I 2 C Data. This pin is a bidirectional open-collector. The line connected to this pin should have a 2.2 kΩ pull-up resistor. See the I 2 C Port section for details. COUT: This SPI data output is used for reading back registers and memory locations. It is three-stated when an SPI read is not active. See the SPI Port section for details.
23	SCL/CCLK	D_IO	I 2 C Clock/SPI Clock. This is a dual function pin, as follows: SCL: I 2 C Clock. This pin is always an open-collector input when in I 2 C control mode. In self- boot mode, this pin is an open-collector output (I 2 C master).The line connected to this pin should have a 2.2 kΩ pull-up resistor. See the I 2 C Port section for details. CCLK: SPI Clock. This pin can either run continuously or be gated off between SPI
26	MP9	D_IO/A_IO	Multipurpose GPIO, Serial Output Port Data 3 (SDATA_OUT3), or Auxiliary ADC Input 0. See the Multipurpose Pins section for more details.
27	MP8	D_IO/A_IO	Multipurpose GPIO, Serial Output Port Data 2 (SDATA_OUT2), or Auxiliary ADC Input 3. See the Multipurpose Pins section for more details.
28	MP3	D_IO/A_IO	Multipurpose GPIO, Serial Input Port Data 3 (SDATA_IN3), or Auxiliary ADC Input 2. See the Multipurpose Pins section for more details.
29	MP2	D_IO/A_IO	Multipurpose GPIO, Serial Input Port Data 2 (SDATA_IN2), or Auxiliary ADC Input 1. See the Multipurpose Pins section for more details.
30	RSVD		Reserved. Tie to ground, either directly or through a pull-down resistor.
31	OSCO	D_OUT	Crystal Oscillator Circuit Output. Connect a 100 Ωdamping resistor between this pin and the crystal. Do not use this output to directly drive a clock to another IC. If the crystal oscillator is not used, this pin can be left disconnected. See the Using the Oscillator section for details.
32	MCLKI	D_IN	Master Clock Input. MCLKI can either be connected to a 3.3V clock signal or be the input from the crystal oscillator circuit. See the Setting Master Clock/PLL Mode section for details.

Pin No.	Mnemonic	Type 1	Description
33	PGND	PWR	PLL Ground Pin. The AGND, DGND, and PGND pins can be tied directly together in a common ground plane. Decouple PGND to PVDD by using a 100 nF capacitor.
34	PVDD	PWR	3.3V Power Supply for the PLL and the Auxiliary ADC Analog Section. Decouple this pin to PGND by using a 100 nF capacitor.
35	PLL_LF	A_OUT	PLL LoopFilter Connection.Two capacitors andaresistorneedtobe connectedto this pin, as shown in Figure 15. See the Setting Master Clock/PLL Mode section for more details.
36, 48	AVDD	PWR	3.3V Analog Supply. Decouple thispintoAGNDbyusinga100nFcapacitor.
38, 39	PLL_MODE0, PLL_MODE1	D_IN	PLL Mode Setting. PLL_MODE0 and PLL_MODE1 set the output frequency of the master clock PLL. See the Setting Master Clock/PLL Mode section for more details.
40	CM	A_OUT	1.5V Common-Mode Reference. Connect a 47 μF decoupling capacitor betweenthispinand groundtoreduce crosstalkbetweentheADCsand DACs.The material of the capacitors is not critical. This pin can be used to bias external analog circuits, as long as those circuits are not drawing current from the pin (such as when CMis connected to the noninverting input of an op amp).
41	FILTD	A_OUT	DAC Filter Decoupling Pin. Connect a 10 μF capacitor between this pin and ground. The capacitor material is not critical.The voltage on this pin is 1.5 V.
43 to 46	VOUT3	A_OUT	VOUT DAC Output. The full-scale output voltage is 0.9V rms. This output can be used with either anactive or passive output reconstruction filter. See the Audio DACssection for details.
44	VOUT2	A_OUT	VOUT2 DAC Output. The full-scale output voltage is 0.9V rms. This output can be used with either anactive or passive output reconstruction filter. See the Audio DACssection for details.
45	VOUT1	A_OUT	VOUT1 DAC Output. The full-scale output voltage is 0.9V rms. This output can be used with either anactive or passive output reconstruction filter. See the Audio DACssection for details.
46	VOUT0	A_OUT	VOUT0 DAC Output. The full-scale output voltage is 0.9V rms. This output can be used with either anactive or passive output reconstruction filter. See the Audio DACssection for details.
47	FILTA	A_OUT	ADC Filter Decoupling Pin. A10 μF capacitor should be connected between this pin and ground. The capacitor material is not critical. The voltage on this pin is 1.5 V.

Absolute Maximum Ratings

Table 8.

Parameter	Rating
DVDD toGND	0V to 2.2V
AVDD toGND	0V to 4.0V
IOVDDtoGND	0V to 4.0V
Digital Inputs	DGND-0.3V, IOVDD + 0.3V
Maximum Junction Temperature	135°C
Temperature Range
Storage	-65°C to +150°C
Operating	0°C to +70°C
Soldering (10 sec)	300°C

Stresses at or above those listed under Absolute Maximum Ratings may cause permanent damage to the product. This is a stress rating only; functional operation of the product at these or any other conditions above those indicated in the operational section of this specification is not implied. Operation beyond the maximum operating conditions for extended periods may affect product reliability.

Thermal Information

θJA is specified for the worst-case conditions, that is, a device soldered in a circuit board for surface-mount packages.

Typical Application

Figure 37. Self-Boot Mode Schematic

06412-036

Related Variants

The following components are covered by the same datasheet.

Part Number	Manufacturer	Package
ADAU1701	Analog Devices Inc.	—
ADAU1701A	Analog Devices Inc.	—
ADAU1701C	Analog Devices Inc.	—
ADAU1701CAN	Analog Devices Inc.	—
ADAU1701D	Analog Devices Inc.	—
ADAU1701H	Analog Devices Inc.	—
ADAU1701JSTZ	Analog Devices Inc.	48-LQFP
ADAU1701JSTZ-RL	Analog Devices Inc.	—
ADAU1701M	Analog Devices Inc.	—
ADAU1701R	Analog Devices Inc.	—
ADAU1701S	Analog Devices Inc.	—

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