// SPDX-License-Identifier: (GPL-2.0-or-later OR MIT) /* * Copyright (c) 2024 Cherry Embedded Solutions GmbH * * Device Tree Overlay for the Pre-ICT tester adapter for the Mezzanine * connector on RK3588 Jaguar. * * This adapter has a PCIe Gen2 x1 M.2 M-Key connector and two proprietary * camera connectors (each their own I2C bus, clock, reset and PWM lines as well * as 2-lane CSI). * * This adapter routes some GPIOs to power rails and loops together some other * GPIOs. * * This adapter is used during manufacturing for validating proper soldering of * the mezzanine connector. */ /dts-v1/; /plugin/; #include #include &{/} { pre_ict_tester_vcc_1v2: regulator-pre-ict-tester-vcc-1v2 { compatible = "regulator-fixed"; regulator-name = "pre_ict_tester_vcc_1v2"; regulator-always-on; regulator-boot-on; regulator-min-microvolt = <1200000>; regulator-max-microvolt = <1200000>; vin-supply = <&vcc_3v3_s3>; }; pre_ict_tester_vcc_2v8: regulator-pre-ict-tester-vcc-2v8 { compatible = "regulator-fixed"; regulator-name = "pre_ict_tester_vcc_2v8"; regulator-always-on; regulator-boot-on; regulator-min-microvolt = <2800000>; regulator-max-microvolt = <2800000>; vin-supply = <&vcc_3v3_s3>; }; }; &combphy0_ps { status = "okay"; }; &gpio3 { pinctrl-0 = <&pre_ict_pwr2gpio>; pinctrl-names = "default"; }; &pcie2x1l2 { pinctrl-names = "default"; pinctrl-0 = <&pcie2x1l2_perstn_m0>; reset-gpios = <&gpio3 RK_PD1 GPIO_ACTIVE_HIGH>; /* PCIE20X1_2_PERSTN_M0 */ vpcie3v3-supply = <&vcc_3v3_s3>; status = "okay"; }; &pinctrl { pcie2x1l2 { pcie2x1l2_perstn_m0: pcie2x1l2-perstn-m0 { rockchip,pins = <3 RK_PD1 RK_FUNC_GPIO &pcfg_pull_none>; }; }; pre-ict-tester { pre_ict_pwr2gpio: pre-ict-pwr2gpio-pins { rockchip,pins = /* * GPIO3_A3 requires two power rails to be properly * routed to the mezzanine connector to report a proper * value: VCC_1V8_S0_1 and VCC_IN_2. It may report an * incorrect value if VCC_1V8_S0_1 isn't properly routed, * but GPIO3_C6 would catch this HW soldering issue. * If VCC_IN_2 is properly routed, GPIO3_A3 should be * LOW. The signal shall not read HIGH in the event * GPIO3_A3 isn't properly routed due to soldering * issue. Therefore, let's enforce a pull-up (which is * the SoC default for this pin). */ <3 RK_PA3 RK_FUNC_GPIO &pcfg_pull_up>, /* * GPIO3_A4 is directly routed to VCC_1V8_S0_2 power * rail. It should be HIGH if all is properly soldered. * To guarantee that, a pull-down is enforced (which is * the SoC default for this pin) so that LOW is read if * the loop doesn't exist on HW (soldering issue on * either signals). */ <3 RK_PA4 RK_FUNC_GPIO &pcfg_pull_down>, /* * GPIO3_B2 requires two power rails to be properly * routed to the mezzanine connector to report a proper * value: VCC_1V8_S0_1 and VCC_IN_1. It may report an * incorrect value if VCC_1V8_S0_1 isn't properly routed, * but GPIO3_C6 would catch this HW soldering issue. * If VCC_IN_1 is properly routed, GPIO3_B2 should be * LOW. This is an issue if GPIO3_B2 isn't properly * routed due to soldering issue, because GPIO3_B2 * default bias is pull-down therefore being LOW. So * the worst case scenario and the pass scenario expect * the same value. Make GPIO3_B2 a pull-up so that a * soldering issue on GPIO3_B2 reports HIGH but proper * soldering reports LOW. */ <3 RK_PB2 RK_FUNC_GPIO &pcfg_pull_up>, /* * GPIO3_C6 is directly routed to VCC_1V8_S0_1 power * rail. It should be HIGH if all is properly soldered. * This is an issue if GPIO3_C6 or VCC_1V8_S0_1 isn't * properly routed due to soldering issue, because * GPIO3_C6 default bias is pull-up therefore being HIGH * in all cases: * - GPIO3_C6 is floating (so HIGH) if GPIO3_C6 is not * routed properly, * - GPIO3_C6 is floating (so HIGH) if VCC_1V8_S0_1 is * not routed properly, * - GPIO3_C6 is HIGH if everything is proper, * Make GPIO3_C6 a pull-down so that a soldering issue * on GPIO3_C6 or VCC_1V8_S0_1 reports LOW but proper * soldering reports HIGH. */ <3 RK_PC6 RK_FUNC_GPIO &pcfg_pull_down>, /* * GPIO3_D2 is routed to VCC_5V0_1 power rail through a * voltage divider on the adapter. * It should be HIGH if all is properly soldered. * To guarantee that, a pull-down is enforced (which is * the SoC default for this pin) so that LOW is read if * the loop doesn't exist on HW (soldering issue on * either signals). */ <3 RK_PD2 RK_FUNC_GPIO &pcfg_pull_down>, /* * GPIO3_D3 is routed to VCC_5V0_2 power rail through a * voltage divider on the adapter. * It should be HIGH if all is properly soldered. * To guarantee that, a pull-down is enforced (which is * the SoC default for this pin) so that LOW is read if * the loop doesn't exist on HW (soldering issue on * either signals). */ <3 RK_PD3 RK_FUNC_GPIO &pcfg_pull_down>, /* * GPIO3_D4 is routed to VCC_3V3_S3_1 power rail through * a voltage divider on the adapter. * It should be HIGH if all is properly soldered. * To guarantee that, a pull-down is enforced (which is * the SoC default for this pin) so that LOW is read if * the loop doesn't exist on HW (soldering issue on * either signals). */ <3 RK_PD4 RK_FUNC_GPIO &pcfg_pull_down>, /* * GPIO3_D5 is routed to VCC_3V3_S3_2 power rail through * a voltage divider on the adapter. * It should be HIGH if all is properly soldered. * To guarantee that, a pull-down is enforced (which is * the SoC default for this pin) so that LOW is read if * the loop doesn't exist on HW (soldering issue on * either signals). */ <3 RK_PD5 RK_FUNC_GPIO &pcfg_pull_down>; }; }; };