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    راه اندازی دانلود bascom nRF24L01

    با درود
    برنامه برای nRF24L01 با bascom دانلود کردم و کمی تغییرات دارم ولی برام چند مشکل پیش امده

    1- برنامه برای 6 آرایه نوشته شده. نمی دونم کجا تغییرات بدم که بیشتر از 6 آرایه ارسال و دریافت کنه؟
    2- در کجایی برنامه برای عوض بشود که بتونه بیش از 6 آرایه ارسال و دریافت کنم

    لطفا راهنمایی کنید

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    [code=vb]
    $baud = 19200
    $hwstack = 40
    $swstack = 20
    $framesize = 40

    '=== Declare sub routines
    Declare Sub R_register(byval Command As Byte , Byval C_bytes As Byte)
    Declare Sub W_register(byval C_bytes As Byte)

    '=== Constante ===
    'Define nRF24L01 interrupt flag's
    Const Idle_int = &H00 'Idle, no interrupt pending
    Const Max_rt = &H10 'Max #of Tx Retrans Interrupt
    Const Tx_ds = &H20 'Tx Data Sent Interrupt
    Const Rx_dr = &H40 'Rx Data Received
    'SPI(nRF24L01) commands
    Const Read_reg = &H00 'Define Read Command To Register
    Const Write_reg = &H20 'Define Write Command To Register
    Const Rd_rx_pload = &H61 'Define Rx Payload Register Address
    Const Wr_tx_pload = &HA0 'Define Tx Payload Register Address
    Const Flush_tx = &HE1 'Define Flush Tx Register Command
    Const Flush_rx = &HE2 'Define Flush Rx Register Command
    Const Reuse_tx_pl = &HE3 'Define Reuse Tx Payload Register Command
    Const Nop_comm = &HFF 'Define No Operation , Might Be Used To Read Status Register
    'SPI(nRF24L01) registers(addresses)
    Const Config_nrf = &H00 'Config' register address
    Const En_aa = &H01 'Enable Auto Acknowledgment' register address
    Const En_rxaddr = &H02 'Enabled RX addresses' register address
    Const Setup_aw = &H03 'Setup address width' register address
    Const Setup_retr = &H04 'Setup Auto. Retrans' register address
    Const Rf_ch = &H05 'RF channel' register address
    Const Rf_setup = &H06 'RF setup' register address
    Const Status = &H07 'Status' register address
    Const Observe_tx = &H08 'Observe TX' register address
    Const Cd = &H09 'Carrier Detect' register address
    Const Rx_addr_p0 = &H0A 'RX address pipe0' register address
    Const Rx_addr_p1 = &H0B 'RX address pipe1' register address
    Const Rx_addr_p2 = &H0C 'RX address pipe2' register address
    Const Rx_addr_p3 = &H0D 'RX address pipe3' register address
    Const Rx_addr_p4 = &H0E 'RX address pipe4' register address
    Const Rx_addr_p5 = &H0F 'RX address pipe5' register address
    Const Tx_addr = &H10 'TX address' register address
    Const Rx_pw_p0 = &H11 'RX payload width, pipe0' register address
    Const Rx_pw_p1 = &H12 'RX payload width, pipe1' register address
    Const Rx_pw_p2 = &H13 'RX payload width, pipe2' register address
    Const Rx_pw_p3 = &H14 'RX payload width, pipe3' register address
    Const Rx_pw_p4 = &H15 'RX payload width, pipe4' register address
    Const Rx_pw_p5 = &H16 'RX payload width, pipe5' register address
    Const Fifo_status = &H17 'FIFO Status Register' register address
    'Various
    Const True = 1
    Const False = 0

    '=== Config hardware ===
    Config Spi = Hard , Interrupt = Off , Data Order = Msb , Master = Yes , Polarity = Low , Phase = 0 , Clockrate = 4 , Noss = 1
    'Software SPI is NOT working with the nRF24L01, use hardware SPI only, but the SS pin must be controlled by our self
    Config Pinc.5 = Output 'CE pin is output
    Config Pinb.2 = Output 'SS pin is output
    Config Pinc.4 = Input 'IRQ pin is input
    Config Pinc.3 = Input 'TX/RX Device _select
    Ce Alias Portc.5
    Ss Alias Portb.2
    Irq Alias Pinc.4
    Txrx_device Alias Pinc.3
    Spiinit 'init the spi pins
    Set Ce
    Waitms 10 'Wait a moment until all hardware is stable
    Reset Ce 'Set CE pin low
    Reset Ss 'Set SS pin low (CSN pin)
    Dim D_bytes(33) As Byte , B_bytes(33) As Byte 'Dim the bytes use for SPI, D_bytes = outgoing B_bytes = Incoming
    Dim Temp As Byte , W As Word
    Dim Packet_count As Byte


    If Txrx_device = True Then Goto Main_tx 'Is this the RX or TX device?

    '===Main rx================================================ ================================================== ========================
    Main_rx:
    Call R_register(status , 1) 'Read STATUS register
    Print "Rx_device" 'Send to terminal who i'm
    Reset Ce 'Set CE low to access the registers
    Gosub Setup_rx 'Setup the nRF24L01 for RX
    Waitms 2 'Add a delay before going in RX
    Set Ce 'Set nRF20L01 in RX mode
    Do 'Main loop for RX
    If Irq = 0 Then 'Wait until IRQ occurs, pin becomes low on interrupt
    Reset Ce 'Receiver must be disabled before reading pload
    Do 'Loop until all 3 fifo buffers are empty
    Call R_register(rd_rx_pload , 5) 'Read 5 bytes RX pload register
    Print "Pload : " ; Hex(b_bytes(1)) ; Hex(b_bytes(2)) ; Hex(b_bytes(3)) ; Hex(b_bytes(4)) ; Hex(b_bytes(5)) 'Print the pload
    Call R_register(fifo_status , 1) 'Read FIFO_STATUS
    Loop Until B_bytes(1).0 = True 'Test or RX_EMPTY bit is true, RX FIFO empty
    D_bytes(1) = Write_reg + Status 'Reset the RX_DR status bit
    D_bytes(2) = &B01000000 'Write 1 to RX_DR bit to reset IRQ
    Call W_register(2)
    Set Ce 'Enable receiver again
    Waitms 2
    End If
    'Gosub Dump_registers 'Unremark me for debugging
    Loop
    Return

    '===Main tx================================================ ================================================== ========================
    Main_tx:
    Print "TX_device" 'Send to terminal who i'm
    D_bytes(1) = Flush_tx 'Flush the TX_fifo buffer
    Call W_register(1)
    D_bytes(1) = Write_reg + Status 'Reset the IRQ bits
    D_bytes(2) = &B00110000
    Call W_register(2)
    Do 'Main loop for TX
    Incr Packet_count 'Increase the send packet counter, for test only
    If Packet_count > 254 Then Packet_count = 0
    Gosub Setup_tx 'Setup the nrf240l01 for TX
    D_bytes(1) = Wr_tx_pload 'Put 5 bytes in the TX pload buffer
    D_bytes(2) = &HAA 'Byte 1
    D_bytes(3) = &HBB 'Byte 2
    D_bytes(4) = &HCC 'Byte 3
    D_bytes(5) = &H11 'Byte 4
    D_bytes(6) = Packet_count 'Byte 5 will be increase every loop
    Call W_register(6) 'Write 6 bytes to register
    Waitms 2
    Set Ce 'Set CE for a short moment to transmit the fifo buffer
    Waitms 1 '
    Reset Ce '
    Waitms 100 'Some delay to read the output on the terminal, line can be removed for max. speed
    W = 0 'Counter for time out
    Do
    If Irq = 0 Then
    Call R_register(status , 1)
    Temp = B_bytes(1) And &B01110000 'Mask the IRQ bits out the status byte
    Select Case Temp 'Which IRQ occurs
    Case Max_rt 'MAX_RT
    Print "Maximum number of TX retries, Flussing the TX buffer now !"
    D_bytes(1) = Flush_tx 'Flush the TX buffer
    Call W_register(1)
    D_bytes(1) = Write_reg + Status
    D_bytes(2) = &B00010000 'Clear the MAX_RT IRQ bit
    Call W_register(2)
    Exit Do
    Case Tx_ds 'TX_DS
    Print "Packet " ; Packet_count ; " send and ACK received."
    D_bytes(1) = Write_reg + Status
    D_bytes(2) = &B00100000 'Clear the TX_DS IRQ bit
    Call W_register(2)
    Exit Do
    Case Else 'Other IRQ ??
    Print "Other irq " ; Bin(temp)
    D_bytes(1) = Flush_tx 'Flush the TX buffer
    Call W_register(1)
    D_bytes(1) = Write_reg + Status
    D_bytes(2) = &B00110000 'Clear both MAX_RT, TX_DS bits
    Call W_register(2)
    End Select
    End If
    Waitms 1 'Time out waiting for IRQ 1ms * 100
    Incr W 'Increment W
    If W > 100 Then 'Waited for 100ms
    Print "No irq response from RF20L01 within 100ms"
    Exit Do 'Exit the wait loop
    End If
    Loop
    Loop
    Return




    '=== Sub routines ===
    Sub W_register(byval C_bytes As Byte) 'Write register with SPI
    Reset Ss 'Manual control SS pin, set SS low before shifting out the bytes
    Spiout D_bytes(1) , C_bytes 'Shiftout the data bytes trough SPI , C_bytes is the amount bytes to be written
    Set Ss 'Set SS high
    End Sub


    Sub R_register(byval Command As Byte , Byval C_bytes As Byte) As Byte 'C_bytes = Count_bytes, number off bytes to be read
    Reset Ss 'Manual controle SS pin, set low before shifting in/out the bytes
    Spiout Command , 1 'First shiftout the register to be read
    Spiin B_bytes(1) , C_bytes 'Read back the bytes from SPI sended by nRF20L01
    Set Ss 'Set SS back to high level
    End Sub


    Setup_rx: 'Setup for RX
    D_bytes(1) = Write_reg + Rx_addr_p0 'RX adress for pipe0
    D_bytes(2) = &H34
    D_bytes(3) = &H43
    D_bytes(4) = &H10
    D_bytes(5) = &H10
    D_bytes(6) = &H01
    Call W_register(6) 'Send 6 bytes to SPI
    D_bytes(1) = Write_reg + En_aa 'Enable auto ACK for pipe0
    D_bytes(2) = &H01
    Call W_register(2)
    D_bytes(1) = Write_reg + En_rxaddr 'Enable RX adress for pipe0
    D_bytes(2) = &H01
    Call W_register(2)
    D_bytes(1) = Write_reg + Rf_ch 'Set RF channel
    D_bytes(2) = 40
    Call W_register(2)
    D_bytes(1) = Write_reg + Rx_pw_p0 'Set RX pload width for pipe0
    D_bytes(2) = 5
    Call W_register(2)
    D_bytes(1) = Write_reg + Rf_setup 'Setup RF-> Output power 0dbm, datarate 2Mbps and LNA gain on
    D_bytes(2) = &H0F
    Call W_register(2)
    D_bytes(1) = Write_reg + Config_nrf 'Setup CONFIG-> PRX=1(RX_device), PWR_UP=1, CRC 2bytes, Enable CRC
    D_bytes(2) = &H0F
    Call W_register(2)
    Return

    Setup_tx: 'Setup for TX
    D_bytes(1) = Write_reg + Tx_addr 'TX adress
    D_bytes(2) = &H34
    D_bytes(3) = &H43
    D_bytes(4) = &H10
    D_bytes(5) = &H10
    D_bytes(6) = &H01
    Call W_register(6)
    D_bytes(1) = Write_reg + Rx_addr_p0 'RX adress for pipe0
    D_bytes(2) = &H34
    D_bytes(3) = &H43
    D_bytes(4) = &H10
    D_bytes(5) = &H10
    D_bytes(6) = &H01
    Call W_register(6)
    D_bytes(1) = Write_reg + En_aa 'Enable auto ACK for pipe0
    D_bytes(2) = &H01
    Call W_register(2)
    D_bytes(1) = Write_reg + En_rxaddr 'Enable RX adress for pipe0
    D_bytes(2) = &H01
    Call W_register(2)
    D_bytes(1) = Write_reg + Rf_ch 'Set RF channel
    D_bytes(2) = 40
    Call W_register(2)
    D_bytes(1) = Write_reg + Rf_setup 'Setup RF-> Output power 0dbm, datarate 2Mbps and LNA gain on
    D_bytes(2) = &H0F
    Call W_register(2)
    D_bytes(1) = Write_reg + Config_nrf 'Setup CONFIG-> PRX=0(TX_device), PWR_UP=1, CRC 2bytes, Enable CRC
    D_bytes(2) = &H0E
    Call W_register(2)
    Return

    Dump_registers: 'Dumps all nRF24L01 registers to the terminal, handy for debugging
    Print "* Dump nRF24L01 Registers *"
    Call R_register(config_nrf , 1)
    Print "CONFIG : " ; Bin(b_bytes(1))
    Call R_register(en_aa , 1)
    Print "EN_AA : " ; Bin(b_bytes(1))
    Call R_register(en_rxaddr , 1)
    Print "EN_RXADDR : " ; Bin(b_bytes(1))
    Call R_register(setup_aw , 1)
    Print "SETUP_AW : " ; Bin(b_bytes(1))
    Call R_register(setup_retr , 1)
    Print "SETUP_RETR : " ; Bin(b_bytes(1))
    Call R_register(rf_ch , 1)
    Print "RF_CH : " ; B_bytes(1)
    Call R_register(rf_setup , 1)
    Print "RF_SETUP : " ; Bin(b_bytes(1))
    Call R_register(status , 1)
    Print "STATUS : " ; Bin(b_bytes(1))
    Call R_register(observe_tx , 1)
    Print "OBSERVE_TX : " ; Bin(b_bytes(1))
    Call R_register(cd , 1)
    Print "CD : " ; Bin(b_bytes(1))
    Call R_register(rx_addr_p0 , 5)
    Print "RX_ADDR_P0 : " ; Hex(b_bytes(1)) ; Hex(b_bytes(2)) ; Hex(b_bytes(3)) ; Hex(b_bytes(4)) ; Hex(b_bytes(5))
    Call R_register(rx_addr_p1 , 5)
    Print "RX_ADDR_P1 : " ; Hex(b_bytes(1)) ; Hex(b_bytes(2)) ; Hex(b_bytes(3)) ; Hex(b_bytes(4)) ; Hex(b_bytes(5))
    Call R_register(rx_addr_p2 , 5)
    Print "RX_ADDR_P2 : " ; Hex(b_bytes(1)) ; Hex(b_bytes(2)) ; Hex(b_bytes(3)) ; Hex(b_bytes(4)) ; Hex(b_bytes(5))
    Call R_register(rx_addr_p3 , 5)
    Print "RX_ADDR_P3 : " ; Hex(b_bytes(1)) ; Hex(b_bytes(2)) ; Hex(b_bytes(3)) ; Hex(b_bytes(4)) ; Hex(b_bytes(5))
    Call R_register(rx_addr_p4 , 5)
    Print "RX_ADDR_P4 : " ; Hex(b_bytes(1)) ; Hex(b_bytes(2)) ; Hex(b_bytes(3)) ; Hex(b_bytes(4)) ; Hex(b_bytes(5))
    Call R_register(rx_addr_p5 , 5)
    Print "RX_ADDR_P5 : " ; Hex(b_bytes(1)) ; Hex(b_bytes(2)) ; Hex(b_bytes(3)) ; Hex(b_bytes(4)) ; Hex(b_bytes(5))
    Call R_register(tx_addr , 5)
    Print "TX_ADDR : " ; Hex(b_bytes(1)) ; Hex(b_bytes(2)) ; Hex(b_bytes(3)) ; Hex(b_bytes(4)) ; Hex(b_bytes(5))
    Call R_register(rx_pw_p0 , 5)
    Print "RX_PW_P0 : " ; Hex(b_bytes(1)) ; Hex(b_bytes(2)) ; Hex(b_bytes(3)) ; Hex(b_bytes(4)) ; Hex(b_bytes(5))
    Call R_register(rx_pw_p1 , 5)
    Print "RX_PW_P1 : " ; Hex(b_bytes(1)) ; Hex(b_bytes(2)) ; Hex(b_bytes(3)) ; Hex(b_bytes(4)) ; Hex(b_bytes(5))
    Call R_register(rx_pw_p2 , 5)
    Print "RX_PW_P2 : " ; Hex(b_bytes(1)) ; Hex(b_bytes(2)) ; Hex(b_bytes(3)) ; Hex(b_bytes(4)) ; Hex(b_bytes(5))
    Call R_register(rx_pw_p3 , 5)
    Print "RX_PW_P3 : " ; Hex(b_bytes(1)) ; Hex(b_bytes(2)) ; Hex(b_bytes(3)) ; Hex(b_bytes(4)) ; Hex(b_bytes(5))
    Call R_register(rx_pw_p4 , 5)
    Print "RX_PW_P4 : " ; Hex(b_bytes(1)) ; Hex(b_bytes(2)) ; Hex(b_bytes(3)) ; Hex(b_bytes(4)) ; Hex(b_bytes(5))
    Call R_register(rx_pw_p5 , 5)
    Print "RX_PW_P5 : " ; Hex(b_bytes(1)) ; Hex(b_bytes(2)) ; Hex(b_bytes(3)) ; Hex(b_bytes(4)) ; Hex(b_bytes(5))
    Call R_register(fifo_status , 1)
    Print "FIFO_STATUS : " ; Bin(b_bytes(1))
    Return
    [/code]

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    لطفا راهنمایی کنید

    #2
    پاسخ : راه اندازی دانلود bascom nRF24L01

    سلام
    در قسمت setup for rx این کد رو پیدا کنید :
    Call W_register(2)
    D_bytes(1) = Write_reg + Rx_pw_p0 'Set RX pload width for pipe0
    D_bytes(2) = 5

    این کدی که وارد کردین 5 بایت اطلاعات میفرسته.d_bytes(2) که برابر 5 قرار داده همون تعداد بایت ارسالی در هر دفعه هست.شما میتونید تا 32 بایت بفرستید.
    در قسمت main tx کد D_bytes(1) = Wr_tx_pload برای اینه که ماژول بفهمه داری بهش اطلاعات ارسالی میدی نه تنظیمات.پس به بایت اول نباید دست بزنی.
    از d_bytes(2) به بعد تا 32 بایت میتونید اطلاعات ارسالی خودتون رو بزارید.
    یا علی.

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      #3
      پاسخ : راه اندازی دانلود bascom nRF24L01

      د.ستان من هم از همین سورس استفاده کردم،میخوام کنفیگ ماژولو تغیر بدم تا سرعت بیاد روی 256 کیلو بایت،تا بردم افزایش پیدا کنه
      میشه اگه بلدین منم راهنمایی کنید؟

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        #4
        پاسخ : راه اندازی دانلود bascom nRF24L01

        TX_ADDR : 0000000001وRX_ADDR_P0 : 0000000001تغییر آدرس برای nrf24l01 در بسکام چطور انجام می شود

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          #5
          پاسخ : راه اندازی دانلود bascom nRF24L01

          سلام اگر امکانش هست فایل بسکام و شماتیک رو ایمیل کنید شدیدا لازم دارم ممنون
          ARAZABAKAN@GMAIL.COM

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