Datasheet
Table Of Contents
- Power Management Modes
- High-Performance CPU
- Peripheral Features
- Analog Features
- Special Microcontroller Features
- Pin Diagrams
- Pin Diagrams
- Pin Diagrams
- Pin Diagrams
- Pin Diagrams
- Table of Contents
- Most Current Data Sheet
- Errata
- Customer Notification System
- 1.0 Device Overview
- 2.0 Guidelines for Getting Started with 16-Bit Microcontrollers
- 3.0 CPU
- 4.0 Memory Organization
- 4.1 Program Address Space
- 4.2 Data Address Space
- 4.2.1 Data Space Width
- 4.2.2 Data Memory Organization and Alignment
- 4.2.3 Near Data Space
- 4.2.4 SFR Space
- TABLE 4-2: Implemented Regions of SFR Data Space
- TABLE 4-3: CPU Core Registers Map
- TABLE 4-4: ICN Register Map
- TABLE 4-5: Interrupt Controller Register Map
- TABLE 4-6: Timer Register Map
- TABLE 4-7: Input Capture Register Map
- TABLE 4-8: Output Compare Register Map
- TABLE 4-9: I2Cx Register Map
- TABLE 4-10: UARTx Register Map
- TABLE 4-11: SPIx Register Map
- TABLE 4-12: PORTA Register Map
- TABLE 4-13: PORTB Register Map
- TABLE 4-14: PORTC Register Map(1)
- TABLE 4-15: Pad Configuration Register Map
- TABLE 4-16: A/D Register Map
- TABLE 4-17: CTMU Register Map
- TABLE 4-18: Analog Select Register Map
- TABLE 4-19: Real-Time Clock and Calendar Register Map
- TABLE 4-20: Triple Comparator Register Map
- TABLE 4-21: CRC Register Map
- TABLE 4-22: Clock Control Register Map
- TABLE 4-23: Deep Sleep Register Map
- TABLE 4-24: NVM Register Map
- TABLE 4-25: Ultra Low-Power Wake-up Register Map
- TABLE 4-26: PMD Register Map
- 4.2.5 Software Stack
- 4.3 Interfacing Program and Data Memory Spaces
- 5.0 Flash Program Memory
- 5.1 Table Instructions and Flash Programming
- 5.2 RTSP Operation
- 5.3 Enhanced In-Circuit Serial Programming
- 5.4 Control Registers
- 5.5 Programming Operations
- Register 5-1: NVMCON: Flash Memory Control Register
- 5.5.1 Programming Algorithm for Flash Program Memory
- EXAMPLE 5-1: Erasing a Program Memory Row – Assembly Language Code
- EXAMPLE 5-2: Erasing a Program Memory Row – ‘C’ Language Code
- EXAMPLE 5-3: Loading the Write Buffers – Assembly Language Code
- EXAMPLE 5-4: Loading the Write Buffers – ‘C’ Language Code
- EXAMPLE 5-5: Initiating a Programming Sequence – Assembly Language Code
- EXAMPLE 5-6: Initiating a Programming Sequence – ‘C’ Language Code
- 6.0 Data EEPROM Memory
- 7.0 Resets
- 8.0 Interrupt Controller
- 8.1 Interrupt Vector Table (IVT)
- 8.2 Reset Sequence
- 8.3 Interrupt Control and Status Registers
- Register 8-1: SR: ALU STATUS Register
- Register 8-2: CORCON: CPU Control Register
- Register 8-3: INTCON1: Interrupt Control Register 1
- Register 8-4: INTCON2: Interrupt Control Register2
- Register 8-5: IFS0: Interrupt Flag Status Register 0
- Register 8-6: IFS1: Interrupt Flag Status Register 1
- Register 8-7: IFS2: Interrupt Flag Status Register 2
- Register 8-8: IFS3: Interrupt Flag Status Register 3
- Register 8-9: IFS4: Interrupt Flag Status Register 4
- Register 8-10: IFS5: Interrupt Flag Status Register 5
- Register 8-11: IEC0: Interrupt Enable Control Register 0
- Register 8-12: IEC1: Interrupt Enable Control Register 1
- Register 8-13: IEC2: Interrupt Enable Control Register 2
- Register 8-14: IEC3: Interrupt Enable Control Register 3
- Register 8-15: IEC4: Interrupt Enable Control Register 4
- Register 8-16: IEC5: Interrupt Enable Control Register 5
- Register 8-17: IPC0: Interrupt Priority Control Register 0
- Register 8-18: IPC1: Interrupt Priority Control Register 1
- Register 8-19: IPC2: Interrupt Priority Control Register 2
- Register 8-20: IPC3: Interrupt Priority Control Register 3
- Register 8-21: IPC4: Interrupt Priority Control Register 4
- Register 8-22: IPC5: Interrupt Priority Control Register 5
- Register 8-23: IPC6: Interrupt Priority Control Register 6
- Register 8-24: IPC7: Interrupt Priority Control Register 7
- Register 8-25: IPC8: Interrupt Priority Control Register 8
- Register 8-26: IPC9: Interrupt Priority Control Register 9
- Register 8-27: IPC12: Interrupt Priority Control Register 12
- Register 8-28: IPC15: Interrupt Priority Control Register 15
- Register 8-29: IPC16: Interrupt Priority Control Register 16
- Register 8-30: IPC18: Interrupt Priority Control Register 18
- Register 8-31: IPC19: Interrupt Priority Control Register 19
- Register 8-32: IPC20: Interrupt Priority Control Register 20
- Register 8-33: INTTREG: Interrupt Control and Status Register
- 8.4 Interrupt Setup Procedures
- 9.0 Oscillator Configuration
- 10.0 Power-Saving Features
- 11.0 I/O Ports
- 12.0 Timer1
- 13.0 Timer2/3 and Timer4/5
- FIGURE 13-1: Timer2/3 and Timer4/5 (32-Bit) Block Diagram
- FIGURE 13-2: Timer2 and Timer4 (16-Bit Synchronous) Block Diagram
- FIGURE 13-3: Timer3 and Timer5 (16-Bit Asynchronous) Block Diagram
- Register 13-1: TxCON: Timer2 and Timer4 Control Register
- Register 13-2: TyCON: Timer3 and Timer5 Control Register
- 14.0 Input Capture with Dedicated Timers
- 15.0 Output Compare with Dedicated Timers
- 16.0 Serial Peripheral Interface (SPI)
- FIGURE 16-1: SPI1 Module Block Diagram (Standard Buffer Mode)
- FIGURE 16-2: SPI1 Module Block Diagram (Enhanced Buffer Mode)
- Register 16-1: SPIxSTAT: SPIx Status and Control Register
- Register 16-2: SPIxCON1: SPIx Control Register 1
- Register 16-3: SPIxCON2: SPIx Control Register 2
- EQUATION 16-1: Relationship Between Device and SPIx Clock Speed(1)
- TABLE 16-1: Sample SCKx Frequencies(1,2)
- 17.0 Inter-Integrated Circuit (I2C)
- 18.0 Universal Asynchronous Receiver Transmitter (UART)
- 19.0 Real-Time Clock and Calendar (RTCC)
- 20.0 32-Bit Programmable Cyclic Redundancy Check (CRC) Generator
- 21.0 High/Low-Voltage Detect (HLVD)
- 22.0 12-Bit A/D Converter with Threshold Detect
- FIGURE 22-1: 12-Bit A/D Converter Block Diagram
- 22.1 A/D Control Registers
- 22.1.1 Control Registers
- 22.1.2 A/D Result Buffers
- Register 22-1: AD1CON1: A/D Control Register 1
- Register 22-2: AD1CON2: A/D Control Register 2
- Register 22-3: AD1CON3: A/D Control Register 3
- Register 22-4: AD1CON5: A/D Control Register 5
- Register 22-5: AD1CHS: A/D Sample Select Register
- Register 22-6: AD1CHITH: A/D Scan Compare Hit Register (High Word)(1)
- Register 22-7: AD1CHITL: A/D Scan Compare Hit Register (Low Word)(1)
- Register 22-8: AD1CSSH: A/D Input Scan Select Register (High Word)(1)
- Register 22-9: AD1CSSL: A/D Input Scan Select Register (Low Word)(1)
- Register 22-10: AD1CTMUENH: A/D CTMU Enable Register (High Word)(1)
- Register 22-11: AD1CTMUENL: A/D CTMU Enable Register (Low Word)(1)
- 22.2 A/D Sampling Requirements
- 22.3 Transfer Function
- 22.4 Buffer Data Formats
- FIGURE 22-4: A/D Output Data Formats (12-Bit)
- TABLE 22-1: Numerical Equivalents of Various Result Codes: 12-Bit Integer Formats
- TABLE 22-2: Numerical Equivalents of Various Result Codes: 12-Bit Fractional Formats
- FIGURE 22-5: A/D Output Data Formats (10-Bit)
- TABLE 22-3: Numerical Equivalents of Various Result Codes: 10-Bit Integer Formats
- TABLE 22-4: Numerical Equivalents of Various Result Codes: 10-Bit Fractional Formats
- 23.0 Comparator Module
- 24.0 Comparator Voltage Reference
- 25.0 Charge Time Measurement Unit (CTMU)
- 26.0 Special Features
- 26.1 Configuration Bits
- TABLE 26-1: Configuration Registers Locations
- Register 26-1: FBS: Boot Segment Configuration Register
- Register 26-2: FGS: General Segment Configuration Register
- Register 26-3: FOSCSEL: Oscillator Selection Configuration Register
- Register 26-4: FOSC: Oscillator Configuration Register
- Register 26-5: FWDT: Watchdog Timer Configuration Register
- Register 26-6: FPOR: Reset Configuration Register
- Register 26-7: FICD: In-Circuit Debugger Configuration Register
- Register 26-8: FDS: Deep Sleep Configuration Register
- Register 26-9: DEVID: Device ID Register
- Register 26-10: DEVREV: Device Revision Register
- 26.2 On-Chip Voltage Regulator
- 26.3 Watchdog Timer (WDT)
- 26.4 Deep Sleep Watchdog Timer (DSWDT)
- 26.5 Program Verification and Code Protection
- 26.6 In-Circuit Serial Programming
- 26.7 In-Circuit Debugger
- 26.1 Configuration Bits
- 27.0 Development Support
- 27.1 MPLAB X Integrated Development Environment Software
- 27.2 MPLAB XC Compilers
- 27.3 MPASM Assembler
- 27.4 MPLINK Object Linker/ MPLIB Object Librarian
- 27.5 MPLAB Assembler, Linker and Librarian for Various Device Families
- 27.6 MPLAB X SIM Software Simulator
- 27.7 MPLAB REAL ICE In-Circuit Emulator System
- 27.8 MPLAB ICD 3 In-Circuit Debugger System
- 27.9 PICkit 3 In-Circuit Debugger/ Programmer
- 27.10 MPLAB PM3 Device Programmer
- 27.11 Demonstration/Development Boards, Evaluation Kits and Starter Kits
- 27.12 Third-Party Development Tools
- 28.0 Instruction Set Summary
- 29.0 Electrical Characteristics
- Absolute Maximum Ratings(†)
- 29.1 DC Characteristics
- FIGURE 29-1: PIC24FV32KA304 Voltage-Frequency Graph (Industrial and Extended)
- FIGURE 29-2: PIC24F32KA304 Family Voltage-Frequency Graph (Industrial and Extended)
- TABLE 29-1: Thermal Operating Conditions
- TABLE 29-2: Thermal Packaging Characteristics
- TABLE 29-3: DC Characteristics: Temperature and Voltage Specifications
- TABLE 29-4: High/Low–Voltage Detect Characteristics
- TABLE 29-5: BOR Trip Points
- TABLE 29-6: DC Characteristics: Operating Current (Idd)
- TABLE 29-7: DC Characteristics: Idle Current (Iidle)
- TABLE 29-8: DC Characteristics: Power-Down Current (Ipd)
- TABLE 29-9: DC Characteristics: I/O Pin Input Specifications
- TABLE 29-10: DC Characteristics: I/O Pin Output Specifications
- TABLE 29-11: DC Characteristics: Program Memory
- TABLE 29-12: DC Characteristics: Data EEPROM Memory
- TABLE 29-13: DC Characteristics: Comparator Specifications
- TABLE 29-14: DC Characteristics: Comparator Voltage Reference Specifications
- TABLE 29-15: Internal Voltage Regulator Specifications
- TABLE 29-16: CTMU Current Source Specifications
- 29.2 AC Characteristics and Timing Parameters
- TABLE 29-17: Temperature and Voltage Specifications – AC
- FIGURE 29-3: Load Conditions for Device Timing Specifications
- TABLE 29-18: Capacitive Loading Requirements on Output Pins
- FIGURE 29-4: External Clock Timing
- TABLE 29-19: External Clock Timing Requirements
- TABLE 29-20: PLL Clock Timing Specifications
- TABLE 29-21: AC Characteristics: Internal RC Accuracy
- TABLE 29-22: Internal RC Oscillator Specifications
- FIGURE 29-5: CLKO and I/O Timing Characteristics
- TABLE 29-23: CLKO and I/O Timing Requirements
- TABLE 29-24: Comparator Timings
- TABLE 29-25: Comparator Voltage Reference Settling Time Specifications
- FIGURE 29-6: Reset, Watchdog Timer, Oscillator Start-up Timer and Power-up Timer Timing Characteristics
- FIGURE 29-7: Brown-out Reset Characteristics
- TABLE 29-26: Reset, Watchdog Timer, Oscillator Start-up Timer, Power-Up Timer, and Brown-Out Reset Timing Requirements
- FIGURE 29-8: Timer1/2/3/4/5 External Clock Input Timing
- TABLE 29-27: Timer1/2/3/4/5 External Clock Input Requirements
- FIGURE 29-9: Input Capture x Timings
- TABLE 29-28: Input Capture x Requirements
- FIGURE 29-10: Output Compare x Timings
- TABLE 29-29: Output Capture Requirements
- FIGURE 29-11: PWM Module Timing Requirements
- TABLE 29-30: PWM Timing Requirements
- FIGURE 29-12: I2C Bus Start/Stop Bits Timing Characteristics (Master Mode)
- TABLE 29-31: I2C Bus Start/Stop Bit Timing Requirements (Master Mode)
- FIGURE 29-13: I2C Bus Data Timing Characteristics (Master Mode)
- TABLE 29-32: I2C Bus Data Timing Requirements (Master Mode)
- FIGURE 29-14: I2C Bus Data Timing Characteristics (Slave Mode)
- TABLE 29-33: I2C Bus Data Timing Requirements (Slave Mode)
- FIGURE 29-15: I2C Bus Start/Stop Bits Timing Characteristics (Slave Mode)
- TABLE 29-34: I2C Bus Start/Stop Bits Timing Requirements (Slave Mode)
- FIGURE 29-16: UARTx Baud Rate Generator Output Timing
- FIGURE 29-17: UARTx Start Bit Edge Detection
- TABLE 29-35: UARTx Timing Requirements
- FIGURE 29-18: SPIx Module Master Mode Timing Characteristics (CKE = 0)
- TABLE 29-36: SPIx Master Mode Timing Requirements (CKE = 0)
- FIGURE 29-19: SPIx Module Master Mode Timing Characteristics (CKE = 1)
- TABLE 29-37: SPIx Module Master Mode Timing Requirements (CKE = 1)
- FIGURE 29-20: SPIx Module Slave Mode Timing Characteristics (CKE = 0)
- TABLE 29-38: SPIx Module Slave Mode Timing Requirements (CKE = 0)
- FIGURE 29-21: SPIx Module Slave Mode Timing Characteristics (CKE = 1)
- TABLE 29-39: SPIx Module Slave Mode Timing Requirements (CKE = 1)
- TABLE 29-40: A/D Module Specifications
- FIGURE 29-22: A/D Conversion Timing
- TABLE 29-41: A/D Conversion Timing Requirements(1)
- 30.0 DC and AC Characteristics Graphs and Tables
- 30.1 Characteristics for Industrial Temperature Devices (-40°C to +85°C)
- FIGURE 30-1: Typical and Maximum Idd vs. Fosc (EC Mode, 2 MHz to 32 MHz, -40°C to +85°C)
- FIGURE 30-2: Typical and Maximum Idd vs. Fosc (EC Mode, 1.95 kHz to 1 MHz, +25°C)
- FIGURE 30-3: Typical and Maximum Iidle vs. Frequency (EC Mode, 2 MHz to 32 MHz)
- FIGURE 30-4: Typical and Maximum Iidle vs. Frequency (EC Mode, 1.95 kHz to 1 MHz)
- FIGURE 30-5: Typical Idd vs. Vdd (8 MHz, EC Mode)
- FIGURE 30-6: Typical Idd vs. Vdd (FRC Mode)
- FIGURE 30-7: Typical and Maximum Idd vs. Temperature (FRC Mode)
- FIGURE 30-8: Typical and Maximum Iidle vs. Vdd (FRC Mode)
- FIGURE 30-9: Typical and Maximum Iidle vs. Temperature (FRC Mode)
- FIGURE 30-10: FRC Frequency Accuracy vs. Vdd
- FIGURE 30-11: FRC Frequency Accuracy vs. Temperature (2.0V £ Vdd £ 5.5V)
- FIGURE 30-12: LPRC Frequency Accuracy vs. Vdd
- FIGURE 30-13: LPRC Frequency Accuracy vs. Temperature (2.0V £ Vdd £ 5.5V)
- FIGURE 30-14: Typical and Maximum Ipd vs. Vdd
- FIGURE 30-15: Typical and Maximum Ipd vs. Temperature
- FIGURE 30-16: Typical and Maximum Ipd vs. Vdd (Deep Sleep Mode)
- FIGURE 30-17: Typical and Maximum Ipd vs. Temperature (Deep Sleep Mode)
- FIGURE 30-18: Typical DIbor vs. Vdd
- FIGURE 30-19: Typical DIwdt vs. Vdd
- FIGURE 30-20: Typical DIdsbor vs. Vdd
- FIGURE 30-21: Typical DIhlvd vs. Vdd
- FIGURE 30-22: Typical DIdswdt vs. Vdd
- FIGURE 30-23: Typical Vbor vs. Temperature (BOR Trip Point 3)
- FIGURE 30-24: Typical Voh vs. Ioh (General Purpose I/O, as a Function of Vdd)
- FIGURE 30-25: Typical Voh vs. Ioh (General Purpose I/O, as a Function of Temperature, 2.0V £ Vdd £ 5.5V)
- FIGURE 30-26: Typical Vol vs. Iol (General Purpose I/O, as a Function of Vdd)
- FIGURE 30-27: Typical Vol vs. Iol (General Purpose I/O, as a Function of Temperature, 2.0V £ Vdd £ 5.5V)
- FIGURE 30-28: Vil/Vih vs. Vdd (General Purpose I/O, Temperatures as Noted)
- FIGURE 30-29: Vil/Vih vs. Vdd (I2C, Temperatures as Noted)
- FIGURE 30-30: Vil/Vih vs. Vdd (OSCO, Temperatures as Noted)
- FIGURE 30-31: Vil/Vih vs. Vdd (MCLR, Temperatures as Noted)
- FIGURE 30-32: Typical Band Gap Voltage vs. Vdd
- FIGURE 30-33: Typical Band Gap Voltage vs. Temperature (2.0V £ Vdd £ 5.5V)
- FIGURE 30-34: Typical Voltage Regulator Output vs. Vdd
- FIGURE 30-35: Typical Voltage Regulator Output vs. Temperature
- FIGURE 30-36: HLVD Trip Point Voltage vs. Temperature (HLVDL<3:0> = 0000, PIC24F32KA304 Family Devices ONLY
- FIGURE 30-37: Temperature Sensor Diode Voltage vs. Temperature (2.0V £ Vdd £ 5.5V)
- FIGURE 30-38: CTMU Output Current vs. Temperature (IRNG<1:0> = 01, 2.0V £ Vdd £ 5.5V)
- FIGURE 30-39: CTMU Output Current vs. Vdd (IRNG<1:0> = 01)
- 30.2 Characteristics for Extended Temperature Devices (-40°C to +125°C)
- FIGURE 30-40: Typical and Maximum Iidle vs. Vdd (FRC Mode)
- FIGURE 30-41: Typical and Maximum Iidle vs. Temperature (FRC Mode)
- FIGURE 30-42: Typical and Maximum Ipd vs. Vdd
- FIGURE 30-43: Typical and Maximum Ipd vs. Temperature
- FIGURE 30-44: Typical and Maximum Ipd vs. Vdd (Deep Sleep Mode)
- FIGURE 30-45: Typical and Maximum Ipd vs. Temperature (Deep Sleep Mode)
- FIGURE 30-46: Typical DIwdt vs. Vdd
- FIGURE 30-47: Typical DIdsbor vs. Vdd
- FIGURE 30-48: Typical DIhlvd vs. Vdd
- FIGURE 30-49: Typical Vol vs. Iol (General I/O, 2.0V £ Vdd £ 5.5V)
- FIGURE 30-50: Typical Voh vs. Ioh (General I/O, as a Function of Temperature, 2.0V £ Vdd £ 5.5V)
- FIGURE 30-51: Vil/Vih vs. Vdd (General Purpose I/O, Temperatures as Noted)
- FIGURE 30-52: Vil/Vih vs. Vdd (I2C, Temperatures as Noted)
- FIGURE 30-53: Vil/Vih vs. Vdd (OSCO, Temperatures as Noted)
- FIGURE 30-54: Vil/Vih vs. Vdd (MCLR, Temperatures as Noted)
- FIGURE 30-55: Typical Band Gap Voltage vs. Temperature (2.0V £ Vdd £ 5.5V)
- FIGURE 30-56: Typical Voltage Regulator Output vs. Temperature
- 30.1 Characteristics for Industrial Temperature Devices (-40°C to +85°C)
- 31.0 Packaging Information
- Appendix A: Revision History
- INDEX
- The Microchip Web Site
- Customer Change Notification Service
- Customer Support
- Product Identification System
- Worldwide Sales and Service
2011-2017 Microchip Technology Inc. DS30009995E-page 353
PIC24FV32KA304 FAMILY
APPENDIX A: REVISION HISTORY
Revision A (March 2011)
Original data sheet for the PIC24FV32KA304 family of
devices.
Revision B (April 2011)
Section 25.0 “Charge Time Measurement Unit
(CTMU)”
was revised to change the description of the
IRNGx bits in CTMUICON (Register 25-3). Setting ‘01’
is the base current level (0.55 A nominal) and setting
‘00’ is 1000x base current.
Section 29.0 “Electrical Characteristics”
was revised
to change the following typical I
PD
specifications:
• DC20h/i/j/k from 204 A to 200 A
• DC60h/i/j/k from 0.15 A to 0.025 A
• DC60l/m/n/o from 0.25 A to 0.040 A
• DC72h/i/j/k from 0.80 A to 0.70 A
Revision C (April 2012)
Updated the Pin Diagrams on Pages 3 through 7, to
change “LVDIN” to “HLVDIN” in all occurrences, and
correct the placement of certain functions.
Updated Table 1- 3 to remove references to unimple-
mented package types, corrected several erroneous
pin assignments and removed other alternate but
unimplemented assignments.
For
Section 5.0 “Flash Program Memory”
, updated
Example 5-2, Example 5-3 and Example 5-4 with new
table offset functions.
Updated Figure 12-1 to correctly show the
implemented Timer1 input options.
For
Section 22.0 “12-Bit A/D Converter with
Threshold Detect”
:
• Updated Register 22-1 to add the MODE12 bit
• Updated the descriptions of the PVCFGx and
CSCNA bits in Register 22-2
• Updated Register 22-4 to change the VRSREQ
bit to a reserved bit position
• Modified footnote text in Register 22-5
• Corrected C
HOLD
in Figure 22-2
For
Section 25.0 “Charge Time Measurement Unit
(CTMU)”
:
• Updated the text in
Section 25.1 “Measuring
Capacitance”
and
Section 25.3 “Pulse Genera-
tion and Delay”
to better reflect the module’s
implementation
• Updated Figure 25-3 to show additional detail in
pulse generation
Added the following timing diagrams and timing
requirement tables to
Section 29.0 “Electrical
Characteristics”
:
• Figure 29-6 (Reset, Watchdog Timer, Oscillator
Start-up Timer and Power-up Timer Timing
Characteristics)
• Figure 29-7 (Brown-out Reset Characteristics)
• Figure 29-9 (Input Capture x Timings) through
Figure 29-21 (SPIx Module Slave Mode Timing
Characteristics (CKE = 1))
• Table 29-28 (Input Capture x Requirements)
through Table 29-39 (SPIx Module Slave Mode
Timing Requirements (CKE = 1))
• Figure 29-22 (A/D Conversion Timing)
Updated Table 29-5 to add specification, DC15.
Replaced Tab l e 29- 6 , Table 29-7 and Table 29-8 with
new, shorter versions that remove unimplemented tem-
perature options. (No existing specification values
have been changed in this process.)
Updated Table 29-16 with correct values for
CTMUICON bit settings.
Combined previous Table 29-21 and Table 29-22 to
create a new Table 29-21 (AC Characteristics: Internal
RC Accuracy). All existing subsequent tables are
renumbered accordingly.
Updated Table 29-26 to add specifications, SY35 and
SY55.
Updated Table 29-40:
• Split AD01 into separate entries for “F” and “FV”
device families
• Added specifications, AD08 (I
VREF
) and AD09
(Z
VREF
)
• Changed AD17 (2.5 k max. to 1 k max.)
Updated Table 29-41:
• Changed AD50 (75 ns min. to 600 ns min.)
• Changed AD51 (250 ns typ. to 1.67 µs typ.)
• Changed AD60 (0.5 T
AD
min. to 2 T
AD
min.)
• Split AD55 into separate entries for 10-bit and
12-bit conversions
Added
Section 30.0 “DC and AC Characteristics
Graphs and Tables”
, with Figure 30-1 through
Figure 30-39.
Replaced some of the packaging diagrams in
Section 31.0 “Packaging Information”
with the
newly revised diagrams.
Other minor typographic corrections throughout.