Users Manual
Table Of Contents
- 45. 12-Bit D/A Converter (R12DAA)
- 46. Temperature Sensor (TEMPSA)
- 47. Comparator B (CMPBa)
- 47.1 Overview
- 47.2 Register Descriptions
- 47.2.1 Comparator B1 Control Register 1 (CPB1CNT1)
- 47.2.2 Comparator B1 Control Register 2 (CPB1CNT2)
- 47.2.3 Comparator B1 Flag Register (CPB1FLG)
- 47.2.4 Comparator B1 Interrupt Control Register (CPB1INT)
- 47.2.5 Comparator B1 Filter Select Register (CPB1F)
- 47.2.6 Comparator B1 Mode Select Register (CPB1MD)
- 47.2.7 Comparator B1 Reference Input Voltage Select Register (CPB1REF)
- 47.2.8 Comparator B1 Output Control Register (CPB1OCR)
- 47.3 Operation
- 47.4 Comparator B2 and Comparator B3 Interrupts
- 47.5 Usage Note
- 48. Data Operation Circuit (DOC)
- 49. RAM
- 50. Flash Memory (FLASH)
- 50.1 Overview
- 50.2 ROM Area and Block Configuration
- 50.3 E2 DataFlash Area and Block Configuration
- 50.4 Register Descriptions
- 50.4.1 E2 DataFlash Control Register (DFLCTL)
- 50.4.2 Flash P/E Mode Entry Register (FENTRYR)
- 50.4.3 Protection Unlock Register (FPR)
- 50.4.4 Protection Unlock Status Register (FPSR)
- 50.4.5 Flash P/E Mode Control Register (FPMCR)
- 50.4.6 Flash Initial Setting Register (FISR)
- 50.4.7 Flash Reset Register (FRESETR)
- 50.4.8 Flash Area Select Register (FASR)
- 50.4.9 Flash Control Register (FCR)
- 50.4.10 Flash Extra Area Control Register (FEXCR)
- 50.4.11 Flash Processing Start Address Register H (FSARH)
- 50.4.12 Flash Processing Start Address Register L (FSARL)
- 50.4.13 Flash Processing End Address Register H (FEARH)
- 50.4.14 Flash Processing End Address Register L (FEARL)
- 50.4.15 Flash Write Buffer Register n (FWBn) (n = 0 to 3)
- 50.4.16 Flash Status Register 0 (FSTATR0)
- 50.4.17 Flash Status Register 1 (FSTATR1)
- 50.4.18 Flash Error Address Monitor Register H (FEAMH)
- 50.4.19 Flash Error Address Monitor Register L (FEAML)
- 50.4.20 Flash Start-Up Setting Monitor Register (FSCMR)
- 50.4.21 Flash Access Window Start Address Monitor Register (FAWSMR)
- 50.4.22 Flash Access Window End Address Monitor Register (FAWEMR)
- 50.4.23 Unique ID Register n (UIDRn) (n = 0 to 3)
- 50.5 Start-Up Program Protection
- 50.6 Area Protection
- 50.7 Programming and Erasure
- 50.8 Boot Mode
- 50.9 Flash Memory Protection
- 50.10 Communication Protocol
- 50.10.1 State Transition in Boot Mode (SCI Interface)
- 50.10.2 Command and Response Configuration
- 50.10.3 Response to Undefined Commands
- 50.10.4 Boot Mode Status Inquiry
- 50.10.5 Inquiry Commands
- 50.10.6 Setting Commands
- 50.10.7 ID Code Authentication Command
- 50.10.8 Program/Erase Commands
- 50.10.9 Read-Check Commands
- 50.11 Serial Programmer Operation in Boot Mode (SCI Interface)
- 50.11.1 Bit Rate Automatic Adjustment Procedure
- 50.11.2 Procedure to Receive the MCU Information
- 50.11.3 Procedure to Select the Device and Change the Bit Rate
- 50.11.4 Procedure for Transition to the Program/Erase Host Command Wait State
- 50.11.5 Procedure to Unlock Boot Mode ID Code Protection
- 50.11.6 Procedure to Erase the User Area and Data Area
- 50.11.7 Procedure to Program the User Area and Data Area
- 50.11.8 Procedure to Check Data in the User Area
- 50.11.9 Procedure to Check Data in the Data Area
- 50.11.10 Procedure to Set the Access Window in the User Area
- 50.12 Rewriting by Self-Programming
- 50.13 Usage Notes
- 50.14 Usage Notes in Boot Mode
- 51. Electrical Characteristics
- 51.1 Absolute Maximum Ratings
- 51.2 DC Characteristics
- 51.3 AC Characteristics
- 51.3.1 Clock Timing
- 51.3.2 Reset Timing
- 51.3.3 Timing of Recovery from Low Power Consumption Modes
- 51.3.4 Control Signal Timing
- 51.3.5 Timing of On-Chip Peripheral Modules
- 51.3.5.1 Timing of I/O Ports
- 51.3.5.2 Timing of MTU/TPU
- 51.3.5.3 Timing of POE
- 51.3.5.4 Timing of TMR
- 51.3.5.5 Timing of SCI
- 51.3.5.6 Timing of RIIC
- 51.3.5.7 Timing of RSPI
- 51.3.5.8 Timing of SSI
- 51.3.5.9 Timing of SDHI
- 51.3.5.10 Timing of A/D Converter Trigger
- 51.3.5.11 Timing of CAC
- 51.3.5.12 Timing of CLKOUT
- 51.3.5.13 Timing of CLKOUT_RF
- 51.4 USB Characteristics
- 51.5 A/D Conversion Characteristics
- 51.6 D/A Conversion Characteristics
- 51.7 Temperature Sensor Characteristics
- 51.8 Comparator Characteristics
- 51.9 CTSU Characteristics
- 51.10 Characteristics of Power-On Reset Circuit and Voltage Detection Circuit
- 51.11 Oscillation Stop Detection Timing
- 51.12 Battery Backup Function Characteristics
- 51.13 ROM (Flash Memory for Code Storage) Characteristics
- 51.14 E2 DataFlash Characteristics (Flash Memory for Data Storage)
- 51.15 BLE Characteristics
- 51.16 Usage Notes
- Appendix 1. Port States in Each Processing Mode
- Appendix 2. Package Dimensions
- REVISION HISTORY
- Colophon
- Address List
- Back cover
R01UH0823EJ0110 Rev.1.10 Page 1631 of 1852
Nov 30, 2020
RX23W Group 44. 12-Bit A/D Converter (S12ADE)
44.5 Event Link Function
44.5.1 Event Output to the ELC
The ELC uses the S12ADI0 interrupt request signal as an event signal (S12ADELC), enabling link operation for the
preset module. An event signal is generated under the conditions set by the event link control bits
(ADELCCR.ELCC[1:0] bits).
The event signal can be output regardless of the setting of the corresponding interrupt request enable bit.
The 12-bit A/D converter outputs the A/D conversion end event (S12ADELC), window function compare match event
(S12ADWMELC), and mismatch event (S12ADWUMELC).
The scan end event (S12ADELC) is output to the ELC at the same time as the interrupt output (S12ADI0) regardless of
the ADCSR.ADIE setting.
The compare match/mismatch event (S12ADWMELC/S12ADWUMELC) is output to the ELC with a delay of one
PCLK cycle from the interrupt output (S12ADI0) regardless of the ADCSR.ADIE setting.
When using compare match/mismatch events (S12ADWMELC/S12ADWUMELC) to the ELC, specify single scan
mode.
44.5.2 12-Bit A/D Converter Operation by Event from the ELC
The 12-bit A/D converter can be started by the predetermined event by setting ELSRn of the ELC.
44.5.3 Note on 12-Bit A/D Converter When an Event Is Input from the ELC
If an event occurs during A/D conversion, the event is disabled.
44.6 Selecting Reference Voltage
For the A/D converter, the high-potential reference voltage can be selected from VREFH0 and AVCC0, and the low-
potential reference voltage can be selected from VREFL0 and AVSS0, respectively. Set these before starting A/D
conversion. For details of this setting, see
section 44.2.30, A/D High-Potential/Low-Potential Reference Voltage
Control Register (ADHVREFCNT)
.