Module stm32_hal2::pac::cec::cfgr

This register is used to configure the HDMI-CEC controller. It is mandatory to write CEC_CFGR only when CECEN=0.

Structs

• CFGR_SPEC
  This register is used to configure the HDMI-CEC controller. It is mandatory to write CEC_CFGR only when CECEN=0.
• R
  Register CFGR reader
• W
  Register CFGR writer

Type Aliases

• BRDNOGEN_R
  Field BRDNOGEN reader - Avoid Error-Bit Generation in Broadcast The BRDNOGEN bit is set and cleared by software.
• BRDNOGEN_W
  Field BRDNOGEN writer - Avoid Error-Bit Generation in Broadcast The BRDNOGEN bit is set and cleared by software.
• BREGEN_R
  Field BREGEN reader - Generate Error-Bit on Bit Rising Error The BREGEN bit is set and cleared by software. Note: If BRDNOGEN=0, an Error-bit is generated upon BRE detection with BRESTP=1 in broadcast even if BREGEN=0
• BREGEN_W
  Field BREGEN writer - Generate Error-Bit on Bit Rising Error The BREGEN bit is set and cleared by software. Note: If BRDNOGEN=0, an Error-bit is generated upon BRE detection with BRESTP=1 in broadcast even if BREGEN=0
• BRESTP_R
  Field BRESTP reader - Rx-Stop on Bit Rising Error The BRESTP bit is set and cleared by software.
• BRESTP_W
  Field BRESTP writer - Rx-Stop on Bit Rising Error The BRESTP bit is set and cleared by software.
• LBPEGEN_R
  Field LBPEGEN reader - Generate Error-Bit on Long Bit Period Error The LBPEGEN bit is set and cleared by software. Note: If BRDNOGEN=0, an Error-bit is generated upon LBPE detection in broadcast even if LBPEGEN=0
• LBPEGEN_W
  Field LBPEGEN writer - Generate Error-Bit on Long Bit Period Error The LBPEGEN bit is set and cleared by software. Note: If BRDNOGEN=0, an Error-bit is generated upon LBPE detection in broadcast even if LBPEGEN=0
• LSTN_R
  Field LSTN reader - Listen mode LSTN bit is set and cleared by software.
• LSTN_W
  Field LSTN writer - Listen mode LSTN bit is set and cleared by software.
• OAR_R
  Field OAR reader - Own addresses configuration The OAR bits are set by software to select which destination logical addresses has to be considered in receive mode. Each bit, when set, enables the CEC logical address identified by the given bit position. At the end of HEADER reception, the received destination address is compared with the enabled addresses. In case of matching address, the incoming message is acknowledged and received. In case of non-matching address, the incoming message is received only in listen mode (LSTN=1), but without acknowledge sent. Broadcast messages are always received. Example: OAR = 0b000 0000 0010 0001 means that CEC acknowledges addresses 0x0 and 0x5. Consequently, each message directed to one of these addresses is received.
• OAR_W
  Field OAR writer - Own addresses configuration The OAR bits are set by software to select which destination logical addresses has to be considered in receive mode. Each bit, when set, enables the CEC logical address identified by the given bit position. At the end of HEADER reception, the received destination address is compared with the enabled addresses. In case of matching address, the incoming message is acknowledged and received. In case of non-matching address, the incoming message is received only in listen mode (LSTN=1), but without acknowledge sent. Broadcast messages are always received. Example: OAR = 0b000 0000 0010 0001 means that CEC acknowledges addresses 0x0 and 0x5. Consequently, each message directed to one of these addresses is received.
• RXTOL_R
  Field RXTOL reader - Rx-Tolerance The RXTOL bit is set and cleared by software. ** Start-Bit, +/- 200 s rise, +/- 200 s fall. ** Data-Bit: +/- 200 s rise. +/- 350 s fall. ** Start-Bit: +/- 400 s rise, +/- 400 s fall ** Data-Bit: +/-300 s rise, +/- 500 s fall
• RXTOL_W
  Field RXTOL writer - Rx-Tolerance The RXTOL bit is set and cleared by software. ** Start-Bit, +/- 200 s rise, +/- 200 s fall. ** Data-Bit: +/- 200 s rise. +/- 350 s fall. ** Start-Bit: +/- 400 s rise, +/- 400 s fall ** Data-Bit: +/-300 s rise, +/- 500 s fall
• SFTOPT_R
  Field SFTOPT reader - SFT Option Bit The SFTOPT bit is set and cleared by software.
• SFTOPT_W
  Field SFTOPT writer - SFT Option Bit The SFTOPT bit is set and cleared by software.
• SFT_R
  Field SFT reader - Signal Free Time SFT bits are set by software. In the SFT=0x0 configuration the number of nominal data bit periods waited before transmission is ruled by hardware according to the transmission history. In all the other configurations the SFT number is determined by software. * 0x0 ** 2.5 Data-Bit periods if CEC is the last bus initiator with unsuccessful transmission (ARBLST=1, TXERR=1, TXUDR=1 or TXACKE= 1) ** 4 Data-Bit periods if CEC is the new bus initiator ** 6 Data-Bit periods if CEC is the last bus initiator with successful transmission (TXEOM=1) * 0x1: 0.5 nominal data bit periods * 0x2: 1.5 nominal data bit periods * 0x3: 2.5 nominal data bit periods * 0x4: 3.5 nominal data bit periods * 0x5: 4.5 nominal data bit periods * 0x6: 5.5 nominal data bit periods * 0x7: 6.5 nominal data bit periods
• SFT_W
  Field SFT writer - Signal Free Time SFT bits are set by software. In the SFT=0x0 configuration the number of nominal data bit periods waited before transmission is ruled by hardware according to the transmission history. In all the other configurations the SFT number is determined by software. * 0x0 ** 2.5 Data-Bit periods if CEC is the last bus initiator with unsuccessful transmission (ARBLST=1, TXERR=1, TXUDR=1 or TXACKE= 1) ** 4 Data-Bit periods if CEC is the new bus initiator ** 6 Data-Bit periods if CEC is the last bus initiator with successful transmission (TXEOM=1) * 0x1: 0.5 nominal data bit periods * 0x2: 1.5 nominal data bit periods * 0x3: 2.5 nominal data bit periods * 0x4: 3.5 nominal data bit periods * 0x5: 4.5 nominal data bit periods * 0x6: 5.5 nominal data bit periods * 0x7: 6.5 nominal data bit periods