From: Tzuyi Chang Date: Tue, 17 Mar 2026 11:54:07 +0000 (+0800) Subject: dt-bindings: pinctrl: realtek: Add RTD1625 pinctrl binding X-Git-Url: http://git.ipfire.org/cgi-bin/gitweb.cgi?a=commitdiff_plain;h=f6ea7004e926ddae54b261327a3db2e4b195c92c;p=thirdparty%2Flinux.git dt-bindings: pinctrl: realtek: Add RTD1625 pinctrl binding Add device tree bindings for RTD1625. Reviewed-by: Conor Dooley Reviewed-by: Linus Walleij Signed-off-by: Tzuyi Chang Co-developed-by: Yu-Chun Lin Signed-off-by: Yu-Chun Lin Signed-off-by: Linus Walleij --- diff --git a/Documentation/devicetree/bindings/pinctrl/realtek,rtd1625-pinctrl.yaml b/Documentation/devicetree/bindings/pinctrl/realtek,rtd1625-pinctrl.yaml new file mode 100644 index 000000000000..9562a043707e --- /dev/null +++ b/Documentation/devicetree/bindings/pinctrl/realtek,rtd1625-pinctrl.yaml @@ -0,0 +1,260 @@ +# SPDX-License-Identifier: (GPL-2.0 OR BSD-2-Clause) +# Copyright 2025 Realtek Semiconductor Corporation +%YAML 1.2 +--- +$id: http://devicetree.org/schemas/pinctrl/realtek,rtd1625-pinctrl.yaml# +$schema: http://devicetree.org/meta-schemas/core.yaml# + +title: Realtek DHC RTD1625 Pin Controller + +maintainers: + - Tzuyi Chang + - Yu-Chun Lin + +description: + The Realtek DHC RTD1625 is a high-definition media processor SoC. The + RTD1625 pin controller is used to control pin function, pull-up/down + resistors, drive strength, slew rate, Schmitt trigger, power source + (I/O output voltage), input threshold domain selection and a higher-VIL mode. + +properties: + compatible: + items: + - enum: + - realtek,rtd1625-iso-pinctrl + - realtek,rtd1625-main2-pinctrl + - realtek,rtd1625-isom-pinctrl + - realtek,rtd1625-ve4-pinctrl + + reg: + maxItems: 1 + +patternProperties: + '-pins$': + type: object + allOf: + - $ref: pincfg-node.yaml# + - $ref: pinmux-node.yaml# + + properties: + pins: + items: + enum: [gpio_0, gpio_1, gpio_2, gpio_3, gpio_4, gpio_5, gpio_6, + gpio_7, gpio_8, gpio_9, gpio_10, gpio_11, gpio_12, gpio_13, + gpio_14, gpio_15, gpio_16, gpio_17, gpio_18, gpio_19, gpio_20, + gpio_21, gpio_22, gpio_23, gpio_24, gpio_25, gpio_28, gpio_29, + gpio_30, gpio_31, gpio_32, gpio_33, gpio_34, gpio_35, gpio_40, + gpio_41, gpio_42, gpio_43, gpio_44, gpio_45, gpio_46, gpio_47, + gpio_48, gpio_49, gpio_50, gpio_51, gpio_52, gpio_53, gpio_54, + gpio_55, gpio_56, gpio_57, gpio_58, gpio_59, gpio_60, gpio_61, + gpio_62, gpio_63, gpio_64, gpio_65, gpio_66, gpio_67, gpio_80, + gpio_81, gpio_82, gpio_83, gpio_84, gpio_85, gpio_86, gpio_87, + gpio_88, gpio_89, gpio_90, gpio_91, gpio_92, gpio_93, gpio_94, + gpio_95, gpio_96, gpio_97, gpio_98, gpio_99, gpio_100, + gpio_101, gpio_102, gpio_103, gpio_104, gpio_105, gpio_106, + gpio_107, gpio_108, gpio_109, gpio_110, gpio_111, gpio_112, + gpio_128, gpio_129, gpio_130, gpio_131, gpio_132, gpio_133, + gpio_134, gpio_135, gpio_136, gpio_137, gpio_138, gpio_139, + gpio_140, gpio_141, gpio_142, gpio_143, gpio_144, gpio_145, + gpio_146, gpio_147, gpio_148, gpio_149, gpio_150, gpio_151, + gpio_152, gpio_153, gpio_154, gpio_155, gpio_156, gpio_157, + gpio_158, gpio_159, gpio_160, gpio_161, gpio_162, gpio_163, + gpio_164, gpio_165, ai_i2s1_loc, ao_i2s1_loc, arm_trace_dbg_en, + csi_vdsel, ejtag_acpu_loc, ejtag_aucpu0_loc, ejtag_aucpu1_loc, + ejtag_pcpu_loc, ejtag_scpu_loc, ejtag_ve2_loc, emmc_clk, + emmc_cmd, emmc_data_0, emmc_data_1, emmc_data_2, emmc_data_3, + emmc_data_4, emmc_data_5, emmc_data_6, emmc_data_7, + emmc_dd_sb, emmc_rst_n, etn_phy_loc, hif_clk, hif_data, + hif_en, hif_rdy, hi_width, i2c6_loc, ir_rx_loc, rgmii_vdsel, + sf_en, spdif_in_mode, spdif_loc, uart0_loc, usb_cc1, usb_cc2, + ve4_uart_loc] + + function: + enum: [gpio, ai_i2s0, ai_i2s2, ai_tdm0, ai_tdm1, ai_tdm2, ao_i2s0, + ao_i2s2, ao_tdm0, ao_tdm1, ao_tdm2, csi0, csi1, csi_1v2, csi_1v8, + csi_2v5, csi_3v3, dmic0, dmic1, dmic2, dptx_hpd, edptx_hdp, emmc, + gspi0, gspi1, gspi2, hi_width_1bit, hi_width_disable, i2c0, i2c1, + i2c3, i2c4, i2c5, i2c7, iso_tristate, pcie0, pcie1, pcm, pctrl, + pwm4, pwm5, pwm6, rgmii, rgmii_1v2, rgmii_1v8, rgmii_2v5, + rgmii_3v3, rmii, sd, sdio, sf_disable, sf_enable, + spdif_in_coaxial, spdif_in_gpio, spdif_out, spi, ts0, ts1, uart1, + uart2, uart3, uart4, uart5, uart6, uart7, uart8, uart9, uart10, + usb_cc1, usb_cc2, vi0_dtv, vi1_dtv, vtc_ao_i2s, vtc_dmic, + vtc_i2s, ai_i2s1_loc0, ai_i2s1_loc1, ao_i2s0_loc0, ao_i2s0_loc1, + ao_i2s1_loc0, ao_i2s1_loc1, ao_tdm1_loc0, ao_tdm1_loc1, + etn_led_loc0, etn_led_loc1, etn_phy_loc0, etn_phy_loc1, + i2c6_loc0, i2c6_loc1, ir_rx_loc0, ir_rx_loc1, pwm0_loc0, + pwm0_loc1, pwm0_loc2, pwm0_loc3, pwm1_loc0, pwm1_loc1, pwm2_loc0, + pwm2_loc1, pwm3_loc0, pwm3_loc1, spdif_loc0, spdif_loc1, + uart0_loc0, uart0_loc1, ve4_uart_loc0, ve4_uart_loc1, + ve4_uart_loc2, acpu_ejtag_loc0, acpu_ejtag_loc1, acpu_ejtag_loc2, + aucpu0_ejtag_loc0, aucpu0_ejtag_loc1, aucpu0_ejtag_loc2, + aucpu1_ejtag_loc0, aucpu1_ejtag_loc1, aucpu1_ejtag_loc2, + aupu0_ejtag_loc1, aupu1_ejtag_loc1, gpu_ejtag_loc0, + pcpu_ejtag_loc0, pcpu_ejtag_loc1, pcpu_ejtag_loc2, + scpu_ejtag_loc0, scpu_ejtag_loc1, scpu_ejtag_loc2, + ve2_ejtag_loc0, ve2_ejtag_loc1, ve2_ejtag_loc2, pll_test_loc0, + pll_test_loc1, dbg_out1, isom_dbg_out, arm_trace_debug_disable, + arm_trace_debug_enable] + + drive-strength: + enum: [4, 8] + + bias-pull-down: true + + bias-pull-up: true + + bias-disable: true + + input-schmitt-enable: true + + input-schmitt-disable: true + + input-voltage-microvolt: + description: | + Select the input receiver voltage domain for the pin. + Valid arguments are: + - 1800000: 1.8V input logic level + - 3300000: 3.3V input logic level + enum: [1800000, 3300000] + + drive-push-pull: true + + power-source: + description: | + Valid arguments are described as below: + 0: power supply of 1.8V + 1: power supply of 3.3V + enum: [0, 1] + + slew-rate: + description: | + Valid arguments are described as below: + 1: ~1ns falling time + 10: ~10ns falling time + 20: ~20ns falling time + 30: ~30ns falling time + enum: [1, 10, 20, 30] + + realtek,drive-strength-p: + description: | + Some of pins can be driven using the P-MOS and N-MOS transistor to + achieve finer adjustments. The block-diagram representation is as + follows: + VDD + | + ||--+ + +-----o|| P-MOS-FET + | ||--+ + IN --+ +----- out + | ||--+ + +------|| N-MOS-FET + ||--+ + | + GND + The driving strength of the P-MOS/N-MOS transistors impacts the + waveform's rise/fall times. Greater driving strength results in + shorter rise/fall times. Each P-MOS and N-MOS transistor offers + 8 configurable levels (0 to 7), with higher values indicating + greater driving strength, contributing to achieving the desired + speed. + + The realtek,drive-strength-p is used to control the driving strength + of the P-MOS output. + + This value is not a simple count of transistors. Instead, it + represents a weighted configuration. There is a base driving + capability (even at value 0), and each bit adds a different weight to + the total strength. The resulting current is non-linear and varies + significantly based on the IO voltage (1.8V vs 3.3V) and the specific + pad group. + $ref: /schemas/types.yaml#/definitions/uint32 + minimum: 0 + maximum: 7 + + realtek,drive-strength-n: + description: | + Similar to the realtek,drive-strength-p, the realtek,drive-strength-n + is used to control the driving strength of the N-MOS output. + + This property uses the same weighted configuration logic where values + 0-7 represent non-linear strength adjustments rather than a transistor + count. + + Higher values indicate greater driving strength, resulting in shorter + fall times. + $ref: /schemas/types.yaml#/definitions/uint32 + minimum: 0 + maximum: 7 + + realtek,duty-cycle: + description: | + An integer describing the level to adjust the output pulse width, it + provides a fixed nanosecond-level adjustment to the rising/falling + edges of an existing signal. It is used for Signal Integrity tuning + (adding/subtracting delay to fine-tune the high/low duration), rather + than generating a specific PWM frequency. + + Valid arguments are described as below: + 0: 0ns + 2: + 0.25ns + 3: + 0.5ns + 4: -0.25ns + 5: -0.5ns + $ref: /schemas/types.yaml#/definitions/uint32 + enum: [0, 2, 3, 4, 5] + + realtek,high-vil-microvolt: + description: | + The threshold value for the input receiver's LOW recognition (VIL). + + This property is used to address specific HDMI I2C compatibility + issues where some sinks (TVs) have weak pull-down capabilities and + fail to pull the bus voltage below the standard VIL threshold + (~0.7V). + + Setting this property to 1100000 (1.1V) enables a specialized input + receiver mode that raises the effective VIL threshold to improve + detection. + enum: [1100000] + + required: + - pins + + additionalProperties: false + +required: + - compatible + - reg + +additionalProperties: false + +examples: + - | + pinctrl@4e000 { + compatible = "realtek,rtd1625-iso-pinctrl"; + reg = <0x4e000 0x130>; + + emmc-hs200-pins { + pins = "emmc_clk", + "emmc_cmd", + "emmc_data_0", + "emmc_data_1", + "emmc_data_2", + "emmc_data_3", + "emmc_data_4", + "emmc_data_5", + "emmc_data_6", + "emmc_data_7"; + function = "emmc"; + realtek,drive-strength-p = <2>; + realtek,drive-strength-n = <2>; + }; + + i2c-0-pins { + pins = "gpio_12", + "gpio_13"; + function = "i2c0"; + drive-strength = <4>; + }; + };