xref: /freebsd/sys/contrib/device-tree/Bindings/sound/tlv320adcx140.yaml (revision aa1a8ff2d6dbc51ef058f46f3db5a8bb77967145)
1# SPDX-License-Identifier: (GPL-2.0+ OR BSD-2-Clause)
2# Copyright (C) 2019 Texas Instruments Incorporated
3%YAML 1.2
4---
5$id: http://devicetree.org/schemas/sound/tlv320adcx140.yaml#
6$schema: http://devicetree.org/meta-schemas/core.yaml#
7
8title: Texas Instruments TLV320ADCX140 Quad Channel Analog-to-Digital Converter
9
10maintainers:
11  - Andrew Davis <afd@ti.com>
12
13description: |
14  The TLV320ADCX140 are multichannel (4-ch analog recording or 8-ch digital
15  PDM microphones recording), high-performance audio, analog-to-digital
16  converter (ADC) with analog inputs supporting up to 2V RMS. The TLV320ADCX140
17  family supports line and  microphone Inputs, and offers a programmable
18  microphone bias or supply voltage generation.
19
20  Specifications can be found at:
21    https://www.ti.com/lit/ds/symlink/tlv320adc3140.pdf
22    https://www.ti.com/lit/ds/symlink/tlv320adc5140.pdf
23    https://www.ti.com/lit/ds/symlink/tlv320adc6140.pdf
24
25properties:
26  compatible:
27    enum:
28      - ti,tlv320adc3140
29      - ti,tlv320adc5140
30      - ti,tlv320adc6140
31
32  reg:
33    maxItems: 1
34    description: |
35      I2C address of the device can be one of these 0x4c, 0x4d, 0x4e or 0x4f
36
37  reset-gpios:
38    maxItems: 1
39    description: |
40      GPIO used for hardware reset.
41
42  areg-supply:
43    description: |
44      Regulator with AVDD at 3.3V.  If not defined then the internal regulator
45      is enabled.
46
47  ti,mic-bias-source:
48    description: |
49      Indicates the source for MIC Bias.
50      0 - Mic bias is set to VREF
51      1 - Mic bias is set to VREF × 1.096
52      6 - Mic bias is set to AVDD
53    $ref: /schemas/types.yaml#/definitions/uint32
54    enum: [0, 1, 6]
55
56  ti,vref-source:
57    description: |
58      Indicates the source for MIC Bias.
59      0 - Set VREF to 2.75V
60      1 - Set VREF to 2.5V
61      2 - Set VREF to 1.375V
62    $ref: /schemas/types.yaml#/definitions/uint32
63    enum: [0, 1, 2]
64
65  ti,pdm-edge-select:
66    description: |
67       Defines the PDMCLK sampling edge configuration for the PDM inputs.  This
68       array is defined as <PDMIN1 PDMIN2 PDMIN3 PDMIN4>.
69
70       0 - (default) Odd channel is latched on the negative edge and even
71       channel is latched on the positive edge.
72       1 - Odd channel is latched on the positive edge and even channel is
73       latched on the negative edge.
74
75       PDMIN1 - PDMCLK latching edge used for channel 1 and 2 data
76       PDMIN2 - PDMCLK latching edge used for channel 3 and 4 data
77       PDMIN3 - PDMCLK latching edge used for channel 5 and 6 data
78       PDMIN4 - PDMCLK latching edge used for channel 7 and 8 data
79
80    $ref: /schemas/types.yaml#/definitions/uint32-array
81    minItems: 1
82    maxItems: 4
83    items:
84      maximum: 1
85    default: [0, 0, 0, 0]
86
87  ti,gpi-config:
88    description: |
89       Defines the configuration for the general purpose input pins (GPI).
90       The array is defined as <GPI1 GPI2 GPI3 GPI4>.
91
92       0 - (default) disabled
93       1 - GPIX is configured as a general-purpose input (GPI)
94       2 - GPIX is configured as a master clock input (MCLK)
95       3 - GPIX is configured as an ASI input for daisy-chain (SDIN)
96       4 - GPIX is configured as a PDM data input for channel 1 and channel
97            (PDMDIN1)
98       5 - GPIX is configured as a PDM data input for channel 3 and channel
99            (PDMDIN2)
100       6 - GPIX is configured as a PDM data input for channel 5 and channel
101            (PDMDIN3)
102       7 - GPIX is configured as a PDM data input for channel 7 and channel
103            (PDMDIN4)
104
105    $ref: /schemas/types.yaml#/definitions/uint32-array
106    minItems: 1
107    maxItems: 4
108    items:
109      maximum: 7
110    default: [0, 0, 0, 0]
111
112  ti,gpio-config:
113    description: |
114       Defines the configuration and output drive for the General Purpose
115       Input and Output pin (GPIO1). Its value is a pair, the first value is for
116       the configuration type and the second value is for the output drive
117       type. The array is defined as <GPIO1_CFG GPIO1_DRV>
118
119       configuration for the GPIO pin can be one of the following:
120       0 - disabled
121       1 - GPIO1 is configured as a general-purpose output (GPO)
122       2 - (default) GPIO1 is configured as a device interrupt output (IRQ)
123       3 - GPIO1 is configured as a secondary ASI output (SDOUT2)
124       4 - GPIO1 is configured as a PDM clock output (PDMCLK)
125       8 - GPIO1 is configured as an input to control when MICBIAS turns on or
126           off (MICBIAS_EN)
127       9 - GPIO1 is configured as a general-purpose input (GPI)
128       10 - GPIO1 is configured as a master clock input (MCLK)
129       11 - GPIO1 is configured as an ASI input for daisy-chain (SDIN)
130       12 - GPIO1 is configured as a PDM data input for channel 1 and channel 2
131            (PDMDIN1)
132       13 - GPIO1 is configured as a PDM data input for channel 3 and channel 4
133            (PDMDIN2)
134       14 - GPIO1 is configured as a PDM data input for channel 5 and channel 6
135            (PDMDIN3)
136       15 - GPIO1 is configured as a PDM data input for channel 7 and channel 8
137            (PDMDIN4)
138
139       output drive type for the GPIO pin can be one of the following:
140       0 - Hi-Z output
141       1 - Drive active low and active high
142       2 - (default) Drive active low and weak high
143       3 - Drive active low and Hi-Z
144       4 - Drive weak low and active high
145       5 - Drive Hi-Z and active high
146
147    $ref: /schemas/types.yaml#/definitions/uint32-array
148    minItems: 2
149    maxItems: 2
150    items:
151      maximum: 15
152    default: [2, 2]
153
154  ti,asi-tx-drive:
155    type: boolean
156    description: |
157      When set the device will set the Tx ASI output to a Hi-Z state for unused
158      data cycles. Default is to drive the output low on unused ASI cycles.
159
160patternProperties:
161  '^ti,gpo-config-[1-4]$':
162    $ref: /schemas/types.yaml#/definitions/uint32-array
163    description: |
164       Defines the configuration and output driver for the general purpose
165       output pins (GPO).  These values are pairs, the first value is for the
166       configuration type and the second value is for the output drive type.
167       The array is defined as <GPO_CFG GPO_DRV>
168
169       GPO output configuration can be one of the following:
170
171       0 - (default) disabled
172       1 - GPOX is configured as a general-purpose output (GPO)
173       2 - GPOX is configured as a device interrupt output (IRQ)
174       3 - GPOX is configured as a secondary ASI output (SDOUT2)
175       4 - GPOX is configured as a PDM clock output (PDMCLK)
176
177       GPO output drive configuration for the GPO pins can be one of the following:
178
179       0d - (default) Hi-Z output
180       1d - Drive active low and active high
181       2d - Drive active low and weak high
182       3d - Drive active low and Hi-Z
183       4d - Drive weak low and active high
184       5d - Drive Hi-Z and active high
185
186required:
187  - compatible
188  - reg
189
190additionalProperties: false
191
192examples:
193  - |
194    #include <dt-bindings/gpio/gpio.h>
195    i2c {
196      #address-cells = <1>;
197      #size-cells = <0>;
198      codec: codec@4c {
199        compatible = "ti,tlv320adc5140";
200        reg = <0x4c>;
201        ti,mic-bias-source = <6>;
202        ti,pdm-edge-select = <0 1 0 1>;
203        ti,gpi-config = <4 5 6 7>;
204        ti,gpio-config = <10 2>;
205        ti,gpo-config-1 = <0 0>;
206        ti,gpo-config-2 = <0 0>;
207        reset-gpios = <&gpio0 14 GPIO_ACTIVE_HIGH>;
208      };
209    };
210