xref: /linux/Documentation/devicetree/bindings/pinctrl/realtek,rtd1619b-pinctrl.yaml (revision c532de5a67a70f8533d495f8f2aaa9a0491c3ad0)
1# SPDX-License-Identifier: (GPL-2.0 OR BSD-2-Clause)
2# Copyright 2023 Realtek Semiconductor Corporation
3%YAML 1.2
4---
5$id: http://devicetree.org/schemas/pinctrl/realtek,rtd1619b-pinctrl.yaml#
6$schema: http://devicetree.org/meta-schemas/core.yaml#
7
8title: Realtek DHC RTD1619B Pin Controller
9
10maintainers:
11  - TY Chang <tychang@realtek.com>
12
13description:
14  The Realtek DHC RTD1619B is a high-definition media processor SoC. The
15  RTD1619B pin controller is used to control pin function, pull up/down
16  resistor, drive strength, schmitt trigger and power source.
17
18properties:
19  compatible:
20    const: realtek,rtd1619b-pinctrl
21
22  reg:
23    maxItems: 1
24
25patternProperties:
26  '-pins$':
27    type: object
28    allOf:
29      - $ref: pincfg-node.yaml#
30      - $ref: pinmux-node.yaml#
31
32    properties:
33      pins:
34        items:
35          enum: [ gpio_0, gpio_1, gpio_2, gpio_3, gpio_4, gpio_5, gpio_6, gpio_7,
36                  gpio_8, gpio_9, gpio_10, gpio_11, gpio_12, gpio_13, gpio_14,
37                  gpio_15, gpio_16, gpio_17, gpio_18, gpio_19, gpio_20, gpio_21,
38                  gpio_22, gpio_23, usb_cc2, gpio_25, gpio_26, gpio_27, gpio_28,
39                  gpio_29, gpio_30, gpio_31, gpio_32, gpio_33, gpio_34, gpio_35,
40                  hif_data, hif_en, hif_rdy, hif_clk, gpio_40, gpio_41, gpio_42,
41                  gpio_43, gpio_44, gpio_45, gpio_46, gpio_47, gpio_48, gpio_49,
42                  gpio_50, usb_cc1, gpio_52, gpio_53, ir_rx, ur0_rx, ur0_tx,
43                  gpio_57, gpio_58, gpio_59, gpio_60, gpio_61, gpio_62, gpio_63,
44                  gpio_64, gpio_65, gpio_66, gpio_67, gpio_68, gpio_69, gpio_70,
45                  gpio_71, gpio_72, gpio_73, gpio_74, gpio_75, gpio_76, emmc_cmd,
46                  spi_ce_n, spi_sck, spi_so, spi_si, emmc_rst_n, emmc_dd_sb,
47                  emmc_clk, emmc_data_0, emmc_data_1, emmc_data_2, emmc_data_3,
48                  emmc_data_4, emmc_data_5, emmc_data_6, emmc_data_7, ur2_loc,
49                  gspi_loc, sdio_loc, hi_loc, hi_width, sf_en, arm_trace_dbg_en,
50                  pwm_01_open_drain_en_loc0, pwm_23_open_drain_en_loc0,
51                  pwm_01_open_drain_en_loc1, pwm_23_open_drain_en_loc1,
52                  ejtag_acpu_loc, ejtag_vcpu_loc, ejtag_scpu_loc, dmic_loc,
53                  iso_gspi_loc, ejtag_ve3_loc, ejtag_aucpu0_loc, ejtag_aucpu1_loc ]
54
55      function:
56        enum: [ gpio, nf, nf_spi, spi, pmic, spdif, spdif_coaxial, spdif_optical_loc0,
57                spdif_optical_loc1, emmc_spi, emmc, sc1, uart0, uart1, uart2_loc0, uart2_loc1,
58                gspi_loc1, iso_gspi_loc1, i2c0, i2c1, i2c3, i2c4, i2c5, pwm0, pwm1, pwm2,
59                pwm3, etn_led, etn_phy, etn_clk, sc0, vfd, gspi_loc0, iso_gspi_loc0, pcie1,
60                pcie2, sd, sdio_loc0, sdio_loc1, hi, hi_m, dc_fan, pll_test_loc0, pll_test_loc1,
61                usb_cc1, usb_cc2, ir_rx, tdm_ai_loc0, tdm_ai_loc1, dmic_loc0, dmic_loc1,
62                ai_loc0, ai_loc1, tp0, tp1, ao, uart2_disable, gspi_disable, sdio_disable,
63                hi_loc_disable, hi_loc0, hi_width_disable, hi_width_1bit, vtc_i2si_loc0,
64                vtc_tdm_loc0, vtc_dmic_loc0, vtc_i2si_loc1, vtc_tdm_loc1, vtc_dmic_loc1,
65                vtc_i2so, ve3_ejtag_loc0, aucpu0_ejtag_loc0, aucpu1_ejtag_loc0, ve3_ejtag_loc1,
66                aucpu0_ejtag_loc1, aucpu1_ejtag_loc1, ve3_ejtag_loc2, aucpu0_ejtag_loc2,
67                aucpu1_ejtag_loc2, scpu_ejtag_loc0, acpu_ejtag_loc0, vcpu_ejtag_loc0,
68                scpu_ejtag_loc1, acpu_ejtag_loc1, vcpu_ejtag_loc1, scpu_ejtag_loc2,
69                acpu_ejtag_loc2, vcpu_ejtag_loc2, ve3_ejtag_disable, aucpu0_ejtag_disable,
70                aucpu1_ejtag_disable, acpu_ejtag_disable, vcpu_ejtag_disable,
71                scpu_ejtag_disable, iso_gspi_disable, sf_disable, sf_enable,
72                arm_trace_debug_disable, arm_trace_debug_enable, pwm_normal, pwm_open_drain,
73                standby_dbg, test_loop_dis ]
74
75      drive-strength:
76        enum: [4, 8]
77
78      bias-pull-down: true
79
80      bias-pull-up: true
81
82      bias-disable: true
83
84      input-schmitt-enable: true
85
86      input-schmitt-disable: true
87
88      drive-push-pull: true
89
90      power-source:
91        description: |
92          Valid arguments are described as below:
93          0: power supply of 1.8V
94          1: power supply of 3.3V
95        enum: [0, 1]
96
97      realtek,drive-strength-p:
98        description: |
99          Some of pins can be driven using the P-MOS and N-MOS transistor to
100          achieve finer adjustments. The block-diagram representation is as
101          follows:
102                         VDD
103                          |
104                      ||--+
105               +-----o||     P-MOS-FET
106               |      ||--+
107          IN --+          +----- out
108               |      ||--+
109               +------||     N-MOS-FET
110                      ||--+
111                          |
112                         GND
113          The driving strength of the P-MOS/N-MOS transistors impacts the
114          waveform's rise/fall times. Greater driving strength results in
115          shorter rise/fall times. Each P-MOS and N-MOS transistor offers
116          8 configurable levels (0 to 7), with higher values indicating
117          greater driving strength, contributing to achieving the desired
118          speed.
119
120          The realtek,drive-strength-p is used to control the driving strength
121          of the P-MOS output.
122        $ref: /schemas/types.yaml#/definitions/uint32
123        minimum: 0
124        maximum: 7
125
126      realtek,drive-strength-n:
127        description: |
128          Similar to the realtek,drive-strength-p, the realtek,drive-strength-n
129          is used to control the driving strength of the N-MOS output.
130        $ref: /schemas/types.yaml#/definitions/uint32
131        minimum: 0
132        maximum: 7
133
134      realtek,duty-cycle:
135        description: |
136          An integer describing the level to adjust output duty cycle, controlling
137          the proportion of positive and negative waveforms in nanoseconds.
138          Valid arguments are described as below:
139          0: 0ns
140          2: + 0.25ns
141          3: + 0.5ns
142          4: -0.25ns
143          5: -0.5ns
144        $ref: /schemas/types.yaml#/definitions/uint32
145        enum: [ 0, 2, 3, 4, 5 ]
146
147    required:
148      - pins
149
150    additionalProperties: false
151
152required:
153  - compatible
154  - reg
155
156additionalProperties: false
157
158examples:
159  - |
160     pinctrl@4e000 {
161         compatible = "realtek,rtd1619b-pinctrl";
162         reg = <0x4e000 0x130>;
163
164         emmc-hs200-pins {
165             pins = "emmc_clk",
166                    "emmc_cmd",
167                    "emmc_data_0",
168                    "emmc_data_1",
169                    "emmc_data_2",
170                    "emmc_data_3",
171                    "emmc_data_4",
172                    "emmc_data_5",
173                    "emmc_data_6",
174                    "emmc_data_7";
175             function = "emmc";
176             realtek,drive-strength-p = <0x2>;
177             realtek,drive-strength-n = <0x2>;
178         };
179
180         i2c-0-pins {
181             pins = "gpio_12",
182                    "gpio_13";
183             function = "i2c0";
184             drive-strength = <4>;
185         };
186     };
187