/dts-v1/; /include/ "bl602_base.dtsi"; // version: 17 // last_comp_version: 16 // boot_cpuid_phys: 0x0 / { model = "bl bl602 AVB board"; compatible = "bl,bl602-sample", "bl,bl602-common"; #address-cells = <0x1>; #size-cells = <0x1>; gpio { #address-cells = <1>; #size-cells = <1>; max_num = <40>; gpio0 { status = "okay"; pin = <5>; feature = "led"; active = "Hi"; //Hi or Lo mode = "blink"; //blink or hearbeat time = <100>; //duration for this mode }; gpio1 { status = "disable"; pin = <6>; feature = "led"; active = "Hi"; //Hi or Lo mode = "blink"; //blink or hearbeat time = <100>; //duration for this mode }; gpio2 { status = "okay"; pin = <2>; feature = "button"; active = "Hi"; mode = "multipress"; button { debounce = <10>; short_press_ms { start = <100>; end = <3000>; kevent = <2>; }; long_press_ms { start = <6000>; end = <10000>; kevent = <3>; }; longlong_press_ms { start = <15000>; kevent = <4>; }; trig_level = "Hi"; }; hbn_use = "disable"; }; }; i2s { #address-cells = <1>; #size-cells = <1>; i2s@40017000 { status = "okay"; compatible = "bl602_i2s"; reg = <0x40017000 0x100>; mclk_only = "okay"; pin { mclk = <11>; }; }; i2s@40017100 { status = "okay"; compatible = "bl602_i2s"; reg = <0x40017100 0x100>; mclk_only = "disable"; pin { bclk = <12>; fs = <29>; do = <30>; di = <31>; }; }; }; i2c { #address-cells = <1>; #size-cells = <1>; i2c@40011000 { status = "okay"; compatible = "bl602_i2c"; reg = <0x40011000 0x100>; pin { scl = <32>; sda = <13>; }; devices { list_addr = <0x18 0x21>; list_driver = "i2c_es8311", "i2c_gc0308>"; }; }; i2c@40011100 { status = "disable"; compatible = "bl602_i2c"; reg = <0x40011100 0x100>; pin { /*empty here*/ }; }; }; timer { #address-cells = <1>; #size-cells = <1>; timer@40014000 { status = "disable"; compatible = "bl602_timer"; reg = <0x40014000 0x100>; }; timer@40014100 { status = "disable"; compatible = "bl602_timer"; reg = <0x40014100 0x100>; }; }; pwm { #address-cells = <1>; #size-cells = <1>; pwm@4000A420 { status = "okay"; compatible = "bl602_pwm"; reg = <0x4000A420 0x20>; path = "/dev/pwm0"; id = <0>; pin = <0>; freq = <800000>; duty = <50>; }; pwm@4000A440 { status = "disable"; reg = <0x4000A440 0x20>; path = "/dev/pwm1"; id = <1>; pin = <1>; freq = <5000>; duty = <50>; }; pwm@4000A460 { status = "disable"; reg = <0x4000A460 0x20>; path = "/dev/pwm2"; id = <2>; pin = <2>; freq = <5000>; duty = <50>; }; pwm@4000A480 { status = "disable"; reg = <0x4000A480 0x20>; path = "/dev/pwm3"; id = <3>; pin = <3>; freq = <5000>; duty = <50>; }; pwm@4000A4A0 { status = "disable"; reg = <0x4000A4A0 0x20>; path = "/dev/pwm4"; id = <4>; pin = <4>; freq = <5000>; duty = <50>; }; }; ir { #address-cells = <1>; #size-cells = <1>; ctrltype = <0>; tx { status = "disable"; pin = <11>; // only support 11 mode = "NEC"; // NEC、ExtenedNEC、RC5、SWM interval = <100>; // ms active_mode = "Hi"; //Hi、Lo }; rx { status = "okay"; pin = <12>; // only support 12 13 mode = "NEC"; // NEC、ExtenedNEC、RC5、SWM active_mode = "Hi"; //Hi、Lo }; }; uart { #address-cells = <1>; #size-cells = <1>; uart@4000A000 { status = "okay"; id = <0>; compatible = "bl602_uart"; path = "/dev/ttyS0"; baudrate = <2000000>; pin { rx = <7>; tx = <16>; }; feature { tx = "okay"; rx = "okay"; cts = "disable"; rts = "disable"; }; }; uart@4000A100 { status = "okay"; id = <1>; compatible = "bl602_uart"; path = "/dev/ttyS1"; baudrate = <115200>; buf_size { tx_size = <1024>; rx_size = <1024>; }; pin { rx = <3>; tx = <4>; }; feature { tx = "okay"; rx = "okay"; cts = "disable"; rts = "disable"; }; }; }; spi { #address-cells = <1>; #size-cells = <1>; spi@4000F000 { status = "okay"; /* okay disable */ reg = <0x4000F000 0x100>; /* 4KB */ path = "/dev/spi0"; port = <0>; mode = <1>; /* 0,1,2,3 */ freq = <6000000>; pin { clk = <11>; cs = <2>; mosi = <1>; miso = <0>; }; dma_cfg { tx_dma_ch = <2>; rx_dma_ch = <3>; }; }; }; gpip { #address-cells = <1>; #size-cells = <1>; adc_key { status = "disable"; pin = <9>; interrupt = <3>; key_vol = <0 100 400 300 500>; key_pcb = "SW1", "SW2", "SW3", "SW4","SW5"; key_event = "Usr1", "Usr2", "Start", "Up", "Down"; key_raw = <1 2 3 4 5>; }; }; qspi { #address-cells = <1>; #size-cells = <1>; qspi@4000A000 { status = "disable"; reg = <0x4000A000 0x1000>;/* 4KB */ }; }; wifi { #address-cells = <1>; #size-cells = <1>; region { country_code = <86>; }; mac { mode = "MBF"; sta_mac_addr = [C8 43 57 82 73 40]; ap_mac_addr = [C8 43 57 82 73 02]; }; sta { ssid = "yourssid"; pwd = "yourapssword"; auto_connect_enable = <0>; }; ap { ssid = "bl_test_005"; pwd = "12345678"; ap_channel = <11>; auto_chan_detect = "disable"; }; brd_rf { xtal_mode = "MF"; xtal = <36 36 0 60 60>; /* pwr_table = < 4 3 3 186 4 3 4 176 4 3 5 167 3 3 0 159 3 3 1 149 3 3 2 140 3 3 3 129 3 3 4 119 3 3 5 110 2 3 0 101 2 3 1 91 2 3 2 82 2 3 3 72 2 3 4 62 2 3 5 52 1 3 3 10>; */ pwr_mode = "bf";//B: only use power offset in EFUSE; b: use power offset in EFUSE with incremental mode; F: only use power offset in Flash; f: use power offset in Flash with incremental mode pwr_table_11b = <20 20 20 18>;//1Mbps 2Mbps 5.5Mbps 11Mbps pwr_table_11g = <18 18 18 18 18 18 14 14>; //6Mbps 9Mbps 12Mbps 18MBps 24Mbps 36Mbps 48Mbps 54Mbps pwr_table_11n = <18 18 18 18 18 16 14 14>; //MCS0 MCS1 MCS2 MCS3 MCS4 MCS5 MCS6 MCS7 pwr_offset = <10 10 10 10 10 10 10 10 10 10 10 10 10 10>;//due to the limit of current DTC, negative value is used. So we work around by adding all the poweroffset with 10. so 8 represents -2; 10 represents 0; 13 represents 3 channel_div_table = <0x1EEC4EC4 0x1EFCB7CB 0x1F0D20D2 0x1F1D89D8 0x1F2DF2DF 0x1F3E5BE5 0x1F4EC4EC 0x1F5F2DF2 0x1F6F96F9 0x1F800000 0x1F906906 0x1FA0D20D 0x1FB13B13 0x1FD89D89 0x201F81F8>; channel_cnt_table = <0xA78A 0xA7E3 0xA83C 0xA895 0xA8ED 0xA946 0xA99F 0xA9F8 0xAA51 0xAAAA 0xAB03 0xAB5C 0xABB5 0xAC8A>; lo_fcal_div = <0x56B>; }; }; };