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DS90UB935-Q1: OV2310->TI935->TI936->NTK

Part Number: DS90UB935-Q1

各位专家,晚上好:

    我现在使用的项目数据流图是:

    OV2310 CSI-2 --> TI935 --> 同轴 --> TI935 --> CSI-2 --> NTK(SOC),寄存器设定如下:

TI936:
                {0x01, CMD_I2CFMT_1B1B, {0x03, CMD_TI936}}, // ic reset
                {0x6d, CMD_I2CFMT_1B1B, {0x7c, CMD_TI936}},
                {0x4c, CMD_I2CFMT_1B1B, {0x01, CMD_TI936}}, // select RX0 for RW
                {0x0c, CMD_I2CFMT_1B1B, {0x01, CMD_TI936}}, // enable port0 
                {0x58, CMD_I2CFMT_1B1B, {0x5D, CMD_TI936}}, //i2c PASS-THROUGH 该寄存器直接导致I2c是否能通过954透传给953或者sensor
                {0x5c, CMD_I2CFMT_1B1B, {0x30, CMD_TI936}},
                {0x5d, CMD_I2CFMT_1B1B, {0xc0, CMD_TI936}},
                {0x65, CMD_I2CFMT_1B1B, {0xc0, CMD_TI936}},
                {0x20, CMD_I2CFMT_1B1B, {0x20, CMD_TI936}}, //FWD_CTL1  很重要,Forwarding enabled for RX Port 0
                {0x33, CMD_I2CFMT_1B1B, {0x23, CMD_TI936}}, //2 lanes 
TI935:
                {0x0E, CMD_I2CFMT_1B1B, {0x10, CMD_TI935}}, // GPIO0 is sensor reset pin
                {0x0D, CMD_I2CFMT_1B1B, {0x00, CMD_TI935}}, // reset low
                {0x0D, CMD_I2CFMT_1B1B, {0x01, CMD_TI935}}, // reset high
                //{0x06, CMD_I2CFMT_1B1B, {0x41, CMD_TI935}}, // CLKOUT_CTRL0  HS_CLK_DIV=4 M=1
                //{0x07, CMD_I2CFMT_1B1B, {0x1b, CMD_TI935}}, // CLKOUT_CTRL1  N=27  clk_out=fc*m/(div*n)  fc=25M
                //{0x03, CMD_I2CFMT_1B1B, {0x5a, CMD_TI935}}, // 000: CSI-2 Synchronous Mode
                {0x02, CMD_I2CFMT_1B1B, {0x53, CMD_TI935}}, // General_CFG  CSI-2lane continues
                //{0x0E, CMD_I2CFMT_1B1B, {0x0F, CMD_TI935}}, // set input
TI936和TI935为同步模式,使用外部有源晶振25MHz。TI935 的GPIO0给OV2310提供复位。TI935和OV2310原理图如下:
目前情况是:
1、TI936、TI935、OV2310没有I2C报错
2、TI936的pass、lock pin输出高
3、SOC去读取OV2310的chip id 0x300A/0x300B 为0x23、0x11是正确的
我的问题是:
1、SOC没有图像输出
2、有尝试拔出TI935的连接,TI936跑datasheet里面的pattern,SOC没有图像输出 
3、正常连接的情况下,TI935的mipi data有波形,但是mipi clk没有波形,稳定输出约200mV电平
4、另外TI935 的GPIO0给OV2310提供复位,重新上电开机,示波器没见有复位波形,上电即为高
请问我要怎么验证这个问题,让SOC能正常出图 ?   这个问题卡住有一周多了,期待您的指点,谢谢!!
  • 这设计感觉用的nonsynchronous mode?

    Sensor的MCLK没配置?

  • 是同步模式。上图2中的MAGE_MCLK预览的测试点TP12,用示波器量的频率为25MHz。

  • 您好,pattern也没有输出是吗? pattern 模式下,pass输出什么电平?

    如果输出为高,那说明pattern配置没有问题,是不是问题出在Soc这端?

  • Dear Chen:

        pattern使用的是datasheet 7.5.11.4的code,如下:

    //#Patgen Fixed Colorbar 1280x720p30
    {0x20, CMD_I2CFMT_1B1B, {0x30, CMD_TI936}}, //
    {0x1F, CMD_I2CFMT_1B1B, {0x00, CMD_TI936}}, // # CSI_PLL_CTL
    {0x33, CMD_I2CFMT_1B1B, {0x03, CMD_TI936}}, // # CSI_CTL CSI0 enable
    {0xB0, CMD_I2CFMT_1B1B, {0x00, CMD_TI936}}, // # Indirect Pattern Gen Registers
    {0xB1, CMD_I2CFMT_1B1B, {0x01, CMD_TI936}}, // # PGEN_CTL
    {0xB2, CMD_I2CFMT_1B1B, {0x01, CMD_TI936}}, //
    {0xB1, CMD_I2CFMT_1B1B, {0x02, CMD_TI936}}, // # PGEN_CFG
    {0xB2, CMD_I2CFMT_1B1B, {0x33, CMD_TI936}}, //
    {0xB1, CMD_I2CFMT_1B1B, {0x03, CMD_TI936}}, // # PGEN_CSI_DI
    {0xB2, CMD_I2CFMT_1B1B, {0x24, CMD_TI936}}, //
    {0xB1, CMD_I2CFMT_1B1B, {0x04, CMD_TI936}}, // # PGEN_LINE_SIZE1
    {0xB2, CMD_I2CFMT_1B1B, {0x0F, CMD_TI936}}, //
    {0xB1, CMD_I2CFMT_1B1B, {0x05, CMD_TI936}}, // # PGEN_LINE_SIZE0
    {0xB2, CMD_I2CFMT_1B1B, {0x00, CMD_TI936}}, //
    {0xB1, CMD_I2CFMT_1B1B, {0x06, CMD_TI936}}, // # PGEN_BAR_SIZE1
    {0xB2, CMD_I2CFMT_1B1B, {0x01, CMD_TI936}}, //
    {0xB1, CMD_I2CFMT_1B1B, {0x07, CMD_TI936}}, // # PGEN_BAR_SIZE0
    {0xB2, CMD_I2CFMT_1B1B, {0xE0, CMD_TI936}}, //
    {0xB1, CMD_I2CFMT_1B1B, {0x08, CMD_TI936}}, // # PGEN_ACT_LPF1
    {0xB2, CMD_I2CFMT_1B1B, {0x02, CMD_TI936}}, //
    {0xB1, CMD_I2CFMT_1B1B, {0x09, CMD_TI936}}, // # PGEN_ACT_LPF0 720
    {0xB2, CMD_I2CFMT_1B1B, {0xD0, CMD_TI936}}, //
    {0xB1, CMD_I2CFMT_1B1B, {0x0A, CMD_TI936}}, // # PGEN_TOT_LPF1
    {0xB2, CMD_I2CFMT_1B1B, {0x04, CMD_TI936}}, //
    {0xB1, CMD_I2CFMT_1B1B, {0x0B, CMD_TI936}}, // # PGEN_TOT_LPF0
    {0xB2, CMD_I2CFMT_1B1B, {0x1A, CMD_TI936}}, //
    {0xB1, CMD_I2CFMT_1B1B, {0x0C, CMD_TI936}}, // # PGEN_LINE_PD1
    {0xB2, CMD_I2CFMT_1B1B, {0x0C, CMD_TI936}}, //
    {0xB1, CMD_I2CFMT_1B1B, {0x0D, CMD_TI936}}, // # PGEN_LINE_PD0
    {0xB2, CMD_I2CFMT_1B1B, {0x67, CMD_TI936}}, //
    {0xB1, CMD_I2CFMT_1B1B, {0x0E, CMD_TI936}}, // # PGEN_VBP
    {0xB2, CMD_I2CFMT_1B1B, {0x21, CMD_TI936}}, //
    {0xB1, CMD_I2CFMT_1B1B, {0x0F, CMD_TI936}}, // # PGEN_VFP
    {0xB2, CMD_I2CFMT_1B1B, {0x0A, CMD_TI936}}, //

    目前是断开TI935,TI936往SOC输出pattern,但是没有输出。 看了下,pass pin接的LED没有亮,是低电平。是我哪里设置不对吗 ? 谢谢!

  • 您好,我看了下寄存器设置没有问题,把0x33的寄存器0x03改成0x73试试,enable CSI Skew-Calibration。

    其次就是间接寄存器的配置,0x01 enable Pattern,0x02配置color bar格式,这些配置上再试试。

  • Dear Chen:

        0x03改成0x73没有改善,pass pin还是低。 如果怀疑TI936和SOC的连接问题,可以测量哪些信号或者查看哪些寄存器来定位吗 ? 谢谢 

  • pass为低,还是936这里的配置问题,如果pass为高,Soc没有显示,可能是连接或者Soc的问题。

    您现在是只使用936 去做pattern generation的测试是吗?

    因为如果接了935,我们可以通过0x4D这个状态寄存器验证下是哪里报错,比如接收端936这边的输入是否有收到有效的FPD link输入数据?是否满足pass标准等。

    另外,就是上述的配置 没问题,indirect寄存器0x01和0x02,以及0x10~0X1E也补充上配置试试,这几个是对color bar的配置,是否已经添加上配置试了也不能显示?

  • Dear chen:

        这几天在弄其它事情,所以今天晚上才回复~

        1、我现在断开了935和936的连接,936输出pattern到SOC

        2、因为我想先验证936和SOC通信OK,确保我的flow是没有问题的,所以断开了935

        3、最新的936的pattern 初始化如下,和datasheet一致,后面的0x10~0x1E取默认值。还是不行~

    //#Patgen Fixed Colorbar 1280x720p30
    {0x20, CMD_I2CFMT_1B1B, {0x30, CMD_TI936}}, //
    {0x1F, CMD_I2CFMT_1B1B, {0x00, CMD_TI936}}, // # CSI_PLL_CTL
    {0x33, CMD_I2CFMT_1B1B, {0x73, CMD_TI936}}, // # CSI_CTL CSI0 enable 0x03
    {0xB0, CMD_I2CFMT_1B1B, {0x00, CMD_TI936}}, // # Indirect Pattern Gen Registers
    {0xB1, CMD_I2CFMT_1B1B, {0x01, CMD_TI936}}, // # PGEN_CTL
    {0xB2, CMD_I2CFMT_1B1B, {0x01, CMD_TI936}}, //
    {0xB1, CMD_I2CFMT_1B1B, {0x02, CMD_TI936}}, // # PGEN_CFG
    {0xB2, CMD_I2CFMT_1B1B, {0x2F, CMD_TI936}}, //
    {0xB1, CMD_I2CFMT_1B1B, {0x03, CMD_TI936}}, // # PGEN_CSI_DI
    {0xB2, CMD_I2CFMT_1B1B, {0x24, CMD_TI936}}, //
    {0xB1, CMD_I2CFMT_1B1B, {0x04, CMD_TI936}}, // # PGEN_LINE_SIZE1
    {0xB2, CMD_I2CFMT_1B1B, {0x0F, CMD_TI936}}, //
    {0xB1, CMD_I2CFMT_1B1B, {0x05, CMD_TI936}}, // # PGEN_LINE_SIZE0
    {0xB2, CMD_I2CFMT_1B1B, {0x00, CMD_TI936}}, //
    {0xB1, CMD_I2CFMT_1B1B, {0x06, CMD_TI936}}, // # PGEN_BAR_SIZE1
    {0xB2, CMD_I2CFMT_1B1B, {0x01, CMD_TI936}}, //
    {0xB1, CMD_I2CFMT_1B1B, {0x07, CMD_TI936}}, // # PGEN_BAR_SIZE0
    {0xB2, CMD_I2CFMT_1B1B, {0xE0, CMD_TI936}}, //
    {0xB1, CMD_I2CFMT_1B1B, {0x08, CMD_TI936}}, // # PGEN_ACT_LPF1
    {0xB2, CMD_I2CFMT_1B1B, {0x02, CMD_TI936}}, //
    {0xB1, CMD_I2CFMT_1B1B, {0x09, CMD_TI936}}, // # PGEN_ACT_LPF0 720
    {0xB2, CMD_I2CFMT_1B1B, {0xD0, CMD_TI936}}, //
    {0xB1, CMD_I2CFMT_1B1B, {0x0A, CMD_TI936}}, // # PGEN_TOT_LPF1
    {0xB2, CMD_I2CFMT_1B1B, {0x04, CMD_TI936}}, //
    {0xB1, CMD_I2CFMT_1B1B, {0x0B, CMD_TI936}}, // # PGEN_TOT_LPF0
    {0xB2, CMD_I2CFMT_1B1B, {0x1A, CMD_TI936}}, //
    {0xB1, CMD_I2CFMT_1B1B, {0x0C, CMD_TI936}}, // # PGEN_LINE_PD1
    {0xB2, CMD_I2CFMT_1B1B, {0x0C, CMD_TI936}}, //
    {0xB1, CMD_I2CFMT_1B1B, {0x0D, CMD_TI936}}, // # PGEN_LINE_PD0
    {0xB2, CMD_I2CFMT_1B1B, {0x67, CMD_TI936}}, //
    {0xB1, CMD_I2CFMT_1B1B, {0x0E, CMD_TI936}}, // # PGEN_VBP
    {0xB2, CMD_I2CFMT_1B1B, {0x21, CMD_TI936}}, //
    {0xB1, CMD_I2CFMT_1B1B, {0x0F, CMD_TI936}}, // # PGEN_VFP
    {0xB2, CMD_I2CFMT_1B1B, {0x0A, CMD_TI936}}, //

    {0xB1, CMD_I2CFMT_1B1B, {0x10, CMD_TI936}},
    {0xB2, CMD_I2CFMT_1B1B, {0xAA, CMD_TI936}},
    {0xB1, CMD_I2CFMT_1B1B, {0x11, CMD_TI936}},
    {0xB2, CMD_I2CFMT_1B1B, {0x33, CMD_TI936}},
    {0xB1, CMD_I2CFMT_1B1B, {0x12, CMD_TI936}},
    {0xB2, CMD_I2CFMT_1B1B, {0xF0, CMD_TI936}},
    {0xB1, CMD_I2CFMT_1B1B, {0x13, CMD_TI936}},
    {0xB2, CMD_I2CFMT_1B1B, {0x7F, CMD_TI936}},
    {0xB1, CMD_I2CFMT_1B1B, {0x14, CMD_TI936}},
    {0xB2, CMD_I2CFMT_1B1B, {0x55, CMD_TI936}},
    {0xB1, CMD_I2CFMT_1B1B, {0x15, CMD_TI936}},
    {0xB2, CMD_I2CFMT_1B1B, {0x16, CMD_TI936}},
    {0xB1, CMD_I2CFMT_1B1B, {0x0F, CMD_TI936}},
    {0xB2, CMD_I2CFMT_1B1B, {0x17, CMD_TI936}},
    {0xB1, CMD_I2CFMT_1B1B, {0x80, CMD_TI936}},
    {0xB2, CMD_I2CFMT_1B1B, {0x18, CMD_TI936}},
    {0xB1, CMD_I2CFMT_1B1B, {0x00, CMD_TI936}},
    {0xB2, CMD_I2CFMT_1B1B, {0x19, CMD_TI936}},
    {0xB1, CMD_I2CFMT_1B1B, {0x00, CMD_TI936}},
    {0xB2, CMD_I2CFMT_1B1B, {0x1A, CMD_TI936}},
    {0xB1, CMD_I2CFMT_1B1B, {0x0F, CMD_TI936}},
    {0xB2, CMD_I2CFMT_1B1B, {0x00, CMD_TI936}},
    {0xB1, CMD_I2CFMT_1B1B, {0x1B, CMD_TI936}},
    {0xB2, CMD_I2CFMT_1B1B, {0x00, CMD_TI936}},
    {0xB1, CMD_I2CFMT_1B1B, {0x1C, CMD_TI936}},
    {0xB2, CMD_I2CFMT_1B1B, {0x00, CMD_TI936}},
    {0xB1, CMD_I2CFMT_1B1B, {0x1D, CMD_TI936}},
    {0xB2, CMD_I2CFMT_1B1B, {0x00, CMD_TI936}},
    {0xB1, CMD_I2CFMT_1B1B, {0x1E, CMD_TI936}},
    {0xB2, CMD_I2CFMT_1B1B, {0x00, CMD_TI936}},

  • 好的,我这边会再看下您的问题。

  • Hi Chen:

        936输出pattern,通过CSI-2和SOC通信,有用示波器量936的mipi clk和mipi data0,波形如下:

    看clk的波形,一帧的时间33.3ms,所以是30fps,应该是正常的。 不过mipi data的波形全部是LP,没有HS吗 ?

    我有了解到间接寄存器 0x03写0x24是输出RGB888,我们SOC默认收RAW12,所以有修改为0x2C。不过此时SOC端仍看不到pattern画面。

    {0xB1, CMD_I2CFMT_1B1B, {0x03, CMD_TI936}}, // # PGEN_CSI_DI
    {0xB2, CMD_I2CFMT_1B1B, {0x2C, CMD_TI936}}, // 0x24

    请问还有什么建议吗? 谢谢!

  •  这样配置了,输出能lock和pass都是高电平吗?

  • 有发现断开和935的同轴线,两个pin都是低(LED指示灯没有亮)。和935连上之后,两颗LED都会亮。

  • Hi chen:

        我这边尝试过修改936或者935的寄存器,之后读取的935的0x0E和0x53,基本不会变:

    0x0E: data[0]=0x0b
    0x53: data[0]=0x03

       请问TI的技术支持有微信或者QQ群吗 ?  这两颗IC确实用得比较少,能找到的资源比较有限。能否帮忙拉一个微信群? 这样沟通效率会比较高!

  • 抱歉,回复晚了。

    RAW12格式的话,pattern您试试用下面这个配置可以吗?

    Reg:0x20 | Value: 0x30 # Forward Control Disabled for RX0 and RX1
    Reg:0x1f | Value: 0x00 # CSI PLL : 1.6 Gbps
    Reg:0x33 | Value: 0x73 # CSI enable, Continuous clocks, Lane Count=1, enable skew cal


    Reg:0xB0 | Value: 0x00 # Indirect Pattern Gen Registers - Select Pattern Block
    Reg:0xB1 | Value: 0x01 # PGEN_CTL
    Reg:0xB2 | Value: 0x01
    Reg:0xB1 | Value: 0x02 # PGEN_CFG
    Reg:0xB2 | Value: 0x33
    Reg:0xB1 | Value: 0x03 # PGEN_CSI_DI
    Reg:0xB2 | Value: 0x2C
    Reg:0xB1 | Value: 0x04 # PGEN_LINE_SIZE1
    Reg:0xB2 | Value: 0x06
    Reg:0xB1 | Value: 0x05 # PGEN_LINE_SIZE0
    Reg:0xB2 | Value: 0x40
    Reg:0xB1 | Value: 0x06 # PGEN_BAR_SIZE1
    Reg:0xB2 | Value: 0x00
    Reg:0xB1 | Value: 0x07 # PGEN_BAR_SIZE0
    Reg:0xB2 | Value: 0xC8
    Reg:0xB1 | Value: 0x08 # PGEN_ACT_LPF1
    Reg:0xB2 | Value: 0x02
    Reg:0xB1 | Value: 0x09 # PGEN_ACT_LPF0
    Reg:0xB2 | Value: 0xD0
    Reg:0xB1 | Value: 0x0A # PGEN_TOT_LPF1
    Reg:0xB2 | Value: 0x04
    Reg:0xB1 | Value: 0x0B # PGEN_TOT_LPF0
    Reg:0xB2 | Value: 0x1A

    REG: 0xB1 0x0C # PGEN_LINE_PD1
    REG: 0xB2 0x0C
    REG: 0xB1 0x0D # PGEN_LINE_PD0
    REG: 0xB2 0x67
    REG: 0xB1 0x0E # PGEN_VBP
    REG: 0xB2 0x21
    REG: 0xB1 0x0F # PGEN_VFP
    REG: 0xB2 0x0A