Datasheet
Table Of Contents
- Device Included In This Data Sheet:
- High-Performance RISC CPU:
- Special Microcontroller Features:
- Low-Power Features/CMOS Technology:
- Peripheral Features:
- 6-Lead SOT-23 Pin Diagram
- 8-Lead DIP Pin Diagram
- 8-Lead DFN Pin Diagram
- Table of Contents
- Most Current Data Sheet
- Errata
- Customer Notification System
- 1.0 General Description
- 2.0 Device Varieties
- 3.0 Architectural Overview
- 4.0 Memory Organization
- 5.0 I/O Port
- 5.1 GPIO
- 5.2 TRIS Registers
- 5.3 I/O Interfacing
- FIGURE 5-1: Equivalent Circuit for a Single I/O Pin
- TABLE 5-1: Order of Precedence for Pin Functions
- TABLE 5-2: Requirements to Make Pins Available in Digital Mode
- FIGURE 5-2: Block Diagram of GP0 and GP1
- FIGURE 5-3: Block Diagram of GP2
- FIGURE 5-4: Block Diagram of GP3
- TABLE 5-3: Summary of Port Registers
- 5.4 I/O Programming Considerations
- 6.0 TMR0 Module and TMR0 Register
- 7.0 Analog-to-Digital (A/D) converter
- 8.0 Special Features Of The CPU
- 8.1 Configuration Bits
- 8.2 Oscillator Configurations
- 8.3 Reset
- 8.4 Power-on Reset (POR)
- 8.5 Device Reset Timer (DRT)
- 8.6 Watchdog Timer (WDT)
- 8.7 Time-out Sequence, Power-down and Wake-up from Sleep Status Bits (TO/PD/GPWUF/CWUF)
- 8.8 Reset on Brown-out
- 8.9 Power-down Mode (Sleep)
- 8.10 Program Verification/Code Protection
- 8.11 ID Locations
- 8.12 In-Circuit Serial Programming™
- 9.0 Instruction Set Summary
- 10.0 Electrical Characteristics
- Absolute Maximum Ratings(†)
- 10.1 DC Characteristics: PIC10F220/222 (Industrial)
- 10.2 DC Characteristics: PIC10F220/222 (Extended)
- 10.3 DC Characteristics: PIC10F220/222 (Industrial, Extended)
- 10.4 Timing Parameter Symbology and Load Conditions
- FIGURE 10-2: Load Conditions
- TABLE 10-2: Calibrated Internal RC Frequencies – PIC10F220/222
- FIGURE 10-3: Reset, Watchdog Timer and Device Reset Timer Timing
- TABLE 10-3: Reset, Watchdog Timer and Device Reset Timer – PIC10F220/222
- FIGURE 10-4: Timer0 Clock Timings
- TABLE 10-4: Timer0 Clock Requirements
- TABLE 10-5: A/D Converter Characteristics
- TABLE 10-6: A/D Conversion Requirements
- 11.0 DC and AC Characteristics Graphs and Tables.
- FIGURE 11-1: Idd vs. Vdd Over Fosc (4 MHz)
- FIGURE 11-2: Idd vs. Vdd Over Fosc (8 MHz)
- FIGURE 11-3: Typical Ipd vs. Vdd (Sleep Mode, all Peripherals Disabled)
- FIGURE 11-4: Maximum Ipd vs. Vdd (Sleep Mode, all Peripherals Disabled)
- FIGURE 11-5: Typical WDT Ipd VS. Vdd
- FIGURE 11-6: Maximum WDT Ipd VS. Vdd Over Temperature
- FIGURE 11-7: WDT TIME-OUT VS. Vdd Over Temperature (No Prescaler)
- FIGURE 11-8: Vol VS. Iol Over Temperature (Vdd = 3.0V)
- FIGURE 11-9: Vol VS. Iol Over Temperature (Vdd = 5.0V)
- FIGURE 11-10: Voh VS. Ioh Over Temperature (Vdd = 3.0V)
- FIGURE 11-11: Voh VS. Ioh Over Temperature (Vdd = 5.0V)
- FIGURE 11-12: TTL Input Threshold Vin VS. Vdd
- FIGURE 11-13: Schmitt Trigger Input Threshold Vin VS. Vdd
- 12.0 Development Support
- 12.1 MPLAB Integrated Development Environment Software
- 12.2 MPASM Assembler
- 12.3 MPLAB C18 and MPLAB C30 C Compilers
- 12.4 MPLINK Object Linker/ MPLIB Object Librarian
- 12.5 MPLAB ASM30 Assembler, Linker and Librarian
- 12.6 MPLAB SIM Software Simulator
- 12.7 MPLAB ICE 2000 High-Performance In-Circuit Emulator
- 12.8 MPLAB REAL ICE In-Circuit Emulator System
- 12.9 MPLAB ICD 2 In-Circuit Debugger
- 12.10 MPLAB PM3 Device Programmer
- 12.11 PICSTART Plus Development Programmer
- 12.12 PICkit 2 Development Programmer
- 12.13 Demonstration, Development and Evaluation Boards
- 13.0 Packaging Information
- Appendix A: Revision History
- INDEX
- The Microchip Web Site
- Customer Change Notification Service
- Customer Support
- Reader Response
- Product Identification System
© 2007 Microchip Technology Inc. DS41270E-page 71
PIC10F220/222
12.7 MPLAB ICE 2000
High-Performance
In-Circuit Emulator
The MPLAB ICE 2000 In-Circuit Emulator is intended
to provide the product development engineer with a
complete microcontroller design tool set for PIC
microcontrollers. Software control of the MPLAB ICE
2000 In-Circuit Emulator is advanced by the MPLAB
Integrated Development Environment, which allows
editing, building, downloading and source debugging
from a single environment.
The MPLAB ICE 2000 is a full-featured emulator
system with enhanced trace, trigger and data monitor-
ing features. Interchangeable processor modules allow
the system to be easily reconfigured for emulation of
different processors. The architecture of the MPLAB
ICE 2000 In-Circuit Emulator allows expansion to
support new PIC microcontrollers.
The MPLAB ICE 2000 In-Circuit Emulator system has
been designed as a real-time emulation system with
advanced features that are typically found on more
expensive development tools. The PC platform and
Microsoft
®
Windows
®
32-bit operating system were
chosen to best make these features available in a
simple, unified application.
12.8 MPLAB REAL ICE In-Circuit
Emulator System
MPLAB REAL ICE In-Circuit Emulator System is
Microchip’s next generation high-speed emulator for
Microchip Flash DSC and MCU devices. It debugs and
programs PIC
®
Flash MCUs and dsPIC
®
Flash DSCs
with the easy-to-use, powerful graphical user interface of
the MPLAB Integrated Development Environment (IDE),
included with each kit.
The MPLAB REAL ICE probe is connected to the design
engineer’s PC using a high-speed USB 2.0 interface and
is connected to the target with either a connector
compatible with the popular MPLAB ICD 2 system
(RJ11) or with the new high-speed, noise tolerant, Low-
Voltage Differential Signal (LVDS) interconnection
(CAT5).
MPLAB REAL ICE is field upgradeable through future
firmware downloads in MPLAB IDE. In upcoming
releases of MPLAB IDE, new devices will be supported,
and new features will be added, such as software break-
points and assembly code trace. MPLAB REAL ICE
offers significant advantages over competitive emulators
including low-cost, full-speed emulation, real-time
variable watches, trace analysis, complex breakpoints, a
ruggedized probe interface and long (up to three meters)
interconnection cables.
12.9 MPLAB ICD 2 In-Circuit Debugger
Microchip’s In-Circuit Debugger, MPLAB ICD 2, is a
powerful, low-cost, run-time development tool,
connecting to the host PC via an RS-232 or high-speed
USB interface. This tool is based on the Flash PIC
MCUs and can be used to develop for these and other
PIC MCUs and dsPIC DSCs. The MPLAB ICD 2 utilizes
the in-circuit debugging capability built into the Flash
devices. This feature, along with Microchip’s In-Circuit
Serial Programming
TM
(ICSP
TM
) protocol, offers cost-
effective, in-circuit Flash debugging from the graphical
user interface of the MPLAB Integrated Development
Environment. This enables a designer to develop and
debug source code by setting breakpoints, single step-
ping and watching variables, and CPU status and
peripheral registers. Running at full speed enables
testing hardware and applications in real time. MPLAB
ICD 2 also serves as a development programmer for
selected PIC devices.
12.10 MPLAB PM3 Device Programmer
The MPLAB PM3 Device Programmer is a universal,
CE compliant device programmer with programmable
voltage verification at VDDMIN and VDDMAX for
maximum reliability. It features a large LCD display
(128 x 64) for menus and error messages and a modu-
lar, detachable socket assembly to support various
package types. The ICSP™ cable assembly is included
as a standard item. In Stand-Alone mode, the MPLAB
PM3 Device Programmer can read, verify and program
PIC devices without a PC connection. It can also set
code protection in this mode. The MPLAB PM3
connects to the host PC via an RS-232 or USB cable.
The MPLAB PM3 has high-speed communications and
optimized algorithms for quick programming of large
memory devices and incorporates an SD/MMC card for
file storage and secure data applications.