Users Manual
Table Of Contents
- 37. Serial Sound Interface (SSI)
- 38. Serial Peripheral Interface (RSPIa)
- 38.1 Overview
- 38.2 Register Descriptions
- 38.2.1 RSPI Control Register (SPCR)
- 38.2.2 RSPI Slave Select Polarity Register (SSLP)
- 38.2.3 RSPI Pin Control Register (SPPCR)
- 38.2.4 RSPI Status Register (SPSR)
- 38.2.5 RSPI Data Register (SPDR)
- 38.2.6 RSPI Sequence Control Register (SPSCR)
- 38.2.7 RSPI Sequence Status Register (SPSSR)
- 38.2.8 RSPI Bit Rate Register (SPBR)
- 38.2.9 RSPI Data Control Register (SPDCR)
- 38.2.10 RSPI Clock Delay Register (SPCKD)
- 38.2.11 RSPI Slave Select Negation Delay Register (SSLND)
- 38.2.12 RSPI Next-Access Delay Register (SPND)
- 38.2.13 RSPI Control Register 2 (SPCR2)
- 38.2.14 RSPI Command Register m (SPCMDm) (m = 0 to 7)
- 38.3 Operation
- 38.3.1 Overview of RSPI Operations
- 38.3.2 Controlling RSPI Pins
- 38.3.3 RSPI System Configuration Examples
- 38.3.3.1 Single Master/Single Slave (with This MCU Acting as Master)
- 38.3.3.2 Single Master/Single Slave (with This MCU Acting as Slave)
- 38.3.3.3 Single Master/Multi-Slave (with This MCU Acting as Master)
- 38.3.3.4 Single Master/Multi-Slave (with This MCU Acting as Slave)
- 38.3.3.5 Multi-Master/Multi-Slave (with This MCU Acting as Master)
- 38.3.3.6 Master (Clock Synchronous Operation)/Slave (Clock Synchronous Operation) (with This MCU Acting as Master)
- 38.3.3.7 Master (Clock Synchronous Operation)/Slave (Clock Synchronous Operation) (with This MCU Acting as Slave)
- 38.3.4 Data Format
- 38.3.5 Transfer Format
- 38.3.6 Communications Operating Mode
- 38.3.7 Transmit Buffer Empty/Receive Buffer Full Interrupts
- 38.3.8 Error Detection
- 38.3.9 Initializing RSPI
- 38.3.10 SPI Operation
- 38.3.11 Clock Synchronous Operation
- 38.3.12 Loopback Mode
- 38.3.13 Self-Diagnosis of Parity Bit Function
- 38.3.14 Interrupt Sources
- 38.4 Link Operation by Event Linking
- 38.5 Usage Notes
- 39. CRC Calculator (CRC)
- 40. SD Host Interface (SDHIa)
- 40.1 Overview
- 40.2 Register Details
- 40.2.1 Command Register (SDCMD)
- 40.2.2 Argument Register (SDARG)
- 40.2.3 Data Stop Register (SDSTOP)
- 40.2.4 Block Count Register (SDBLKCNT)
- 40.2.5 Response Register 10 (SDRSP10), Response Register 32 (SDRSP32), Response Register 54 (SDRSP54), Response Register 76 (SDRSP76)
- 40.2.6 SD Status Register 1 (SDSTS1)
- 40.2.7 SD Status Register 2 (SDSTS2)
- 40.2.8 SD Interrupt Mask Register 1 (SDIMSK1)
- 40.2.9 SD Interrupt Mask Register 2 (SDIMSK2)
- 40.2.10 SDHI Clock Control Register (SDCLKCR)
- 40.2.11 Transfer Data Size Register (SDSIZE)
- 40.2.12 Card Access Option Register (SDOPT)
- 40.2.13 SD Error Status Register 1 (SDERSTS1)
- 40.2.14 SD Error Status Register 2 (SDERSTS2)
- 40.2.15 SD Buffer Register (SDBUFR)
- 40.2.16 SDIO Mode Control Register (SDIOMD)
- 40.2.17 SDIO Status Register (SDIOSTS)
- 40.2.18 SDIO Interrupt Mask Register (SDIOIMSK)
- 40.2.19 DMA Transfer Enable Register (SDDMAEN)
- 40.2.20 SDHI Software Reset Register (SDRST)
- 40.2.21 Swap Control Register (SDSWAP)
- 40.3 SDHI Operation
- 40.3.1 Data Block Format of the SD Card
- 40.3.2 SD Buffer and the SDBUFR Register
- 40.3.3 SD Card Detection
- 40.3.4 SD Card Write Protection
- 40.3.5 Communication Errors and Timeouts
- 40.3.6 Examples of Issuing a Command
- 40.3.6.1 Command Absent of Response Reception and Data Transfer
- 40.3.6.2 Command Absent of Data Transfer
- 40.3.6.3 Single Block Read Command (CMD17)
- 40.3.6.4 Single Block Write Command (CMD24)
- 40.3.6.5 Multi-Block Read Command (CMD18)
- 40.3.6.6 Multi-Block Write Command (CMD25)
- 40.3.6.7 IO_RW_DIRECT Command (CMD52)
- 40.3.6.8 IO_RW_EXTENDED Command (CMD53 (Multi-Block Read))
- 40.3.6.9 IO_RW_EXTENDED (CMD53 Multi-Block Write)
- 40.3.6.10 DMA Transfer
- 40.4 Interrupts
- 40.5 Notes on Using the SDHI
- 40.5.1 Illegal Read Access During a Multi-Block Read and How To Avoid It
- 40.5.2 SDBUFR Register Illegal Write Error
- 40.5.3 Automatic Control of the SDHI Clock Output
- 40.5.4 Restrictions on Setting the C52PUB Bit During a Multi-Block Write Sequence
- 40.5.5 Note on Setting the SDCLKCR Register
- 40.5.6 Writing to the SDSTOP Register During a Multi-Block Read Sequence
- 40.5.7 Controlling Module Operation
- 41. Bluetooth Low Energy (BLE)
- 42. Trusted Secure IP (TSIP-Lite)
- 43. Capacitive Touch Sensing Unit (CTSU)
- 43.1 Overview
- 43.2 Register Descriptions
- 43.2.1 CTSU Control Register 0 (CTSUCR0)
- 43.2.2 CTSU Control Register 1 (CTSUCR1)
- 43.2.3 CTSU Synchronous Noise Reduction Setting Register (CTSUSDPRS)
- 43.2.4 CTSU Sensor Stabilization Wait Control Register (CTSUSST)
- 43.2.5 CTSU Measurement Channel Register 0 (CTSUMCH0)
- 43.2.6 CTSU Measurement Channel Register 1 (CTSUMCH1)
- 43.2.7 CTSU Channel Enable Control Register 0 (CTSUCHAC0)
- 43.2.8 CTSU Channel Enable Control Register 1 (CTSUCHAC1)
- 43.2.9 CTSU Channel Enable Control Register 2 (CTSUCHAC2)
- 43.2.10 CTSU Channel Enable Control Register 3 (CTSUCHAC3)
- 43.2.11 CTSU Channel Enable Control Register 4 (CTSUCHAC4)
- 43.2.12 CTSU Channel Transmit/Receive Control Register 0 (CTSUCHTRC0)
- 43.2.13 CTSU Channel Transmit/Receive Control Register 1 (CTSUCHTRC1)
- 43.2.14 CTSU Channel Transmit/Receive Control Register 2 (CTSUCHTRC2)
- 43.2.15 CTSU Channel Transmit/Receive Control Register 3 (CTSUCHTRC3)
- 43.2.16 CTSU Channel Transmit/Receive Control Register 4 (CTSUCHTRC4)
- 43.2.17 CTSU High-Pass Noise Reduction Control Register (CTSUDCLKC)
- 43.2.18 CTSU Status Register (CTSUST)
- 43.2.19 CTSU High-Pass Noise Reduction Spectrum Diffusion Control Register (CTSUSSC)
- 43.2.20 CTSU Sensor Offset Register 0 (CTSUSO0)
- 43.2.21 CTSU Sensor Offset Register 1 (CTSUSO1)
- 43.2.22 CTSU Sensor Counter (CTSUSC)
- 43.2.23 CTSU Reference Counter (CTSURC)
- 43.2.24 CTSU Error Status Register (CTSUERRS)
- 43.3 Operation
- 43.4 Usage Notes
- 44. 12-Bit A/D Converter (S12ADE)
- 44.1 Overview
- 44.2 Register Descriptions
- 44.2.1 A/D Data Registers y (ADDRy) (y = 0 to 7, 16 to 20, 27), A/D Data Duplication Register (ADDBLDR), A/D Temperature Sensor Data Register (ADTSDR), A/D Internal Reference Voltage Data Register (ADOCDR)
- 44.2.2 A/D Self-Diagnosis Data Register (ADRD)
- 44.2.3 A/D Control Register (ADCSR)
- 44.2.4 A/D Channel Select Register A0 (ADANSA0)
- 44.2.5 A/D Channel Select Register A1 (ADANSA1)
- 44.2.6 A/D Channel Select Register B0 (ADANSB0)
- 44.2.7 A/D Channel Select Register B1 (ADANSB1)
- 44.2.8 A/D-Converted Value Addition/Average Function Select Register 0 (ADADS0)
- 44.2.9 A/D-Converted Value Addition/Average Function Select Register 1 (ADADS1)
- 44.2.10 A/D-Converted Value Addition/Average Count Select Register (ADADC)
- 44.2.11 A/D Control Extended Register (ADCER)
- 44.2.12 A/D Conversion Start Trigger Select Register (ADSTRGR)
- 44.2.13 A/D Conversion Extended Input Control Register (ADEXICR)
- 44.2.14 A/D Sampling State Register n (ADSSTRn) (n = 0 to 7, L, T, O)
- 44.2.15 A/D Disconnection Detection Control Register (ADDISCR)
- 44.2.16 A/D Event Link Control Register (ADELCCR)
- 44.2.17 A/D Group Scan Priority Control Register (ADGSPCR)
- 44.2.18 A/D Compare Function Control Register (ADCMPCR)
- 44.2.19 A/D Compare Function Window A Channel Select Register 0 (ADCMPANSR0)
- 44.2.20 A/D Compare Function Window A Channel Select Register 1 (ADCMPANSR1)
- 44.2.21 A/D Compare Function Window A Extended Input Select Register (ADCMPANSER)
- 44.2.22 A/D Compare Function Window A Comparison Condition Setting Register 0 (ADCMPLR0)
- 44.2.23 A/D Compare Function Window A Comparison Condition Setting Register 1 (ADCMPLR1)
- 44.2.24 A/D Compare Function Window A Extended Input Comparison Condition Setting Register (ADCMPLER)
- 44.2.25 A/D Compare Function Window A Lower-Side Level Setting Register (ADCMPDR0)
- 44.2.26 A/D Compare Function Window A Upper-Side Level Setting Register (ADCMPDR1)
- 44.2.27 A/D Compare Function Window A Channel Status Register 0 (ADCMPSR0)
- 44.2.28 A/D Compare Function Window A Channel Status Register 1 (ADCMPSR1)
- 44.2.29 A/D Compare Function Window A Extended Input Channel Status Register (ADCMPSER)
- 44.2.30 A/D High-Potential/Low-Potential Reference Voltage Control Register (ADHVREFCNT)
- 44.2.31 A/D Compare Function Window A/B Status Monitor Register (ADWINMON)
- 44.2.32 A/D Compare Function Window B Channel Select Register (ADCMPBNSR)
- 44.2.33 A/D Compare Function Window B Lower-Side Level Setting Register (ADWINLLB)
- 44.2.34 A/D Compare Function Window B Upper-Side Level Setting Register (ADWINULB)
- 44.2.35 A/D Compare Function Window B Channel Status Register (ADCMPBSR)
- 44.2.36 A/D Data Storage Buffer Register n (ADBUFn) (n = 0 to 15)
R01UH0823EJ0110 Rev.1.10 Page 1558 of 1852
Nov 30, 2020
RX23W Group 44. 12-Bit A/D Converter (S12ADE)
is set to 1 as long as the scan is started by the synchronous trigger selected by the ADSTRGR.TRSA[5:0] bits.
ADCS[1:0] Bits (Scan Mode Select)
The ADCS[1:0] bits select the scan mode.
In single scan mode, A/D conversion is performed for the analog inputs of a maximum of 14 channels selected with the
ADANSA0 and ADANSA1 registers in the ascending order of the channel number, and when one cycle of A/D
conversion is completed for all the selected channels, the scan conversion is stopped.
In continuous scan mode, while the ADCSR.ADST bit is 1, A/D conversion is performed for the analog inputs of a
maximum of 14 channels selected with the ADANSA0 and ADANSA1 registers in the ascending order of the channel
number, and when one cycle of A/D conversion is completed for all the selected channels, A/D conversion is repeated
from the first channel. If the ADCSR.ADST bit is set to 0 during continuous scan, A/D conversion is stopped even if
scanning is in progress.
In group scan mode, A/D conversion is performed for the analog inputs (group A) of 14 channels selected with the
ADANSA0 and ADANSA1 registers in the ascending order of the channel number after scanning is started by the
synchronous trigger selected by the ADSTRGR.TRSA[5:0] bits, and when one cycle of A/D conversion is completed for
all the selected channels, A/D conversion is stopped. A/D conversion is also performed for the analog inputs (group B) of
a maximum of 14 channels selected with the ADANSB0 and ADANSB1 registers in the ascending order of the channel
number after scanning is started by the synchronous trigger selected by the ADSTRGR.TRSB[5:0] bits, and when one
cycle of A/D conversion is completed for all the selected channels, A/D conversion is stopped.
When selecting group scan mode, different channels and triggers should be selected for group A and group B.
When selecting the temperature sensor output or internal reference voltage, select single scan mode, and deselect all the
channels selected with the ADANSA0 and ADANSA1 registers before performing A/D conversion. When A/D
conversion of the selected temperature sensor output or internal reference voltage is completed, A/D conversion is
stopped.
The ADCS[1:0] bits should be set while the ADST bit is 0. They should not be set simultaneously when 1 is written to
the ADST bit.
ADST Bit (A/D Conversion Start)
The ADST bit starts or stops A/D conversion process.
Before the ADST bit is set to 1, set the A/D conversion clock, the conversion mode, and conversion target analog input.
[Setting conditions]
• 1 is written by software.
• The synchronous trigger selected by the ADSTRGR.TRSA[5:0] bits is detected with ADCSR.EXTRG and
ADCSR.TRGE bits being set to 0 and 1, respectively.
• The synchronous trigger selected by the ADSTRGR.TRSB[5:0] bits is detected with the ADCSR.TRGE bit being
set to 1 in group scan mode.
• The asynchronous trigger is detected with the ADCSR.TRGE and ADCSR.EXTRG bits being set to 1 and the
ADSTRGR.TRSA[5:0] bits being set to 000000b.
• With group-A priority control operation mode enabled (ADCSR.ADCS[1:0] bits = 01b and ADGSPCR.PGS bit =
1), a group B trigger is detected and A/D conversion of group B is started.
• With group-A priority control operation mode enabled (ADCSR.ADCS[1:0] bits = 01b and ADGSPCR.PGS bit =
1), the ADGSPCR.GBRSCN bit is set to 1 and A/D conversion of group B is restarted.
• With group-A priority control operation mode enabled (ADCSR.ADCS[1:0] bits = 01b and ADGSPCR.PGS bit =
1), the ADGSPCR.GBRP bit is set to 1 and A/D conversion of group B is started.
[Clearing conditions]
• 0 is written by software.
• The A/D conversion of all the selected channels, the temperature sensor output, or the internal reference voltage is
completed in single scan mode.