PIC18F2220/2320/4220/4320 PIC18F2220/2320/4220/4320 Data Sheet Errata Clarifications/Corrections to the Data Sheet: 2. Module: Oscillator Configurations (INTRC) In the Device Data Sheet (DS39599G), the following clarifications and corrections should be noted. Any silicon issues related to the PIC18F2220/2320/4220/4320 will be reported in a separate silicon errata. Please check the Microchip web site for any existing issues. * The first, third, fourth and fifth paragraphs of Section 2.6.2 "OSCTUNE Register" on page 23 have been modified: - First paragraph: 1. Module: Power-Managed Modes * In the third paragraph of Section 3.3.3 "RC_IDLE Mode" on page 35, the IOFS bit set time is changed. The modified value is indicated in bold text: If the IRCF bits are set to a non-zero value (thus enabling the INTOSC output), the IOFS bit becomes set after the INTOSC output becomes stable, in about 128 s. * In the sixth paragraph of Section 3.4.3 "RC_RUN Mode" on page 37, the INTOSC clock source stabilizing time has changed. The modified value is indicated in bold text in the following excerpt of the section: If the IRCF bits are changed from all clear (thus enabling the INTOSC output), the IOFS bit becomes set after the INTOSC output becomes stable. Clocks to the system continue while the INTOSC source stabilizes in approximately 128 s. (c) 2008 Microchip Technology Inc. The internal oscillator block is calibrated at the factory to produce an INTOSC output frequency of approximately 8 MHz. (See parameters F14 through F19 in Table 26-8). - Third paragraph: The tuning sensitivity is constant throughout the tuning range. This sentence is deleted. - Fourth paragraph: OSCTUNE register does not affect the INTRC frequency. The modified value is indicated in bold text. When the OSCTUNE register is modified, the INTOSC frequency begins shifting to the new frequency. The INTOSC clock will stabilize at the new frequency within 100 s. Code execution continues during this shift. - Fifth paragraph: Except for the first sentence (There is no indication when the shift occurs), the remaining content is deleted. DS80334B-page 1 PIC18F2220/2320/4220/4320 REGISTER 2-1: OSCTUNE: OSCILLATOR TUNING REGISTER values are modified. In the description of bit 0, the second sentence is deleted, and the modified content is indicated in bold text in Register 2-1. REGISTER 2-1: OSCTUNE: OSCILLATOR TUNING REGISTER U-0 U-0 R/W-0 R/W-0 R/W-0 R/W-0 R/W-0 R/W-0 -- -- TUN5 TUN4 TUN3 TUN2 TUN1 TUN0 bit 7 bit 0 Legend: R = Readable bit W = Writable bit U = Unimplemented bit, read as `0' -n = Value at POR `1' = Bit is set `0' = Bit is cleared x = Bit is unknown bit 7-6 Unimplemented: Read as `0' bit 5-1 TUN<5:1>: Frequency Tuning bits - Adjusts the frequency of INTOSC. Can adjust INTRC, depending on TUNSEL (OSCTUN2<7>) 011111 = Maximum frequency * * 000001 000000 = Center frequency. Oscillator module is running at the calibrated frequency 111111 * * 100000 = Minimum frequency bit 0 TUN<0>: This bit is a placeholder and has no effect on the INTOSC frequency. DS80334B-page 2 (c) 2008 Microchip Technology Inc. PIC18F2220/2320/4220/4320 3. Module: OSCTUN2 REGISTER The bullet points in the second paragraph of Section 2.6.3 "OSCTUN2 Register" on page 24 are modified. The modified values indicate that the OSCTUNE register does not affect the INTRC frequency. The modified values are indicated in bold text in the following excerpt of the section: * If TUNSEL (OSCTUN2<7>) is clear - The INTOSC clock frequency can be adjusted by the TUN5:TUN1 bits in OSCTUNE<5:1> without affecting the INTRC frequency (see Register 2-1:OSCTUNE). * If TUNSEL (OSCTUN2<7>) is set - The INTRC clock frequency can be adjusted by the TUN5:TUN1 bits in OSCTUN2<5:1> without affecting the INTOSC frequency (see Register 2-2: OSCTUN2). REGISTER 2-2: OSCTUN2: INTRC OSCILLATOR TUNING REGISTER values are modified. The modified content for bit 7 is indicated in bold text and the second sentence in bit 0 is deleted, and the modified content is indicated in bold text in Register 2-2. REGISTER 2-2: OSCTUN2: INTRC OSCILLATOR TUNING REGISTER R/W-0 U-0 R/W-0 R/W-0 R/W-0 R/W-0 R/W-0 R/W-0 TUNSEL -- TUN5 TUN4 TUN3 TUN2 TUN1 TUN0 bit 7 bit 0 Legend: R = Readable bit W = Writable bit U = Unimplemented bit, read as `0' -n = Value at POR `1' = Bit is set `0' = Bit is cleared x = Bit is unknown bit 7 TUNSEL: INTRC Frequency bit 1 = INTRC frequency adjusted according to the values of the OSCTUN2<5:1> bits 0 = INTRC not affected bit 6 Unimplemented: Read as `0' bit 5-1 TUN<5:1>: Frequency Tuning bits - Adjusts the frequency of INTRC when TUNSEL is set 011111 = Maximum frequency * * 000001 000000 = Center frequency. Oscillator module is running at the calibrated frequency 111111 * * 100000 = Minimum frequency bit 0 TUN<0>: Placeholder. This bit has no effect on the INTRC frequency. (c) 2008 Microchip Technology Inc. DS80334B-page 3 PIC18F2220/2320/4220/4320 4. Module: Electrical Characteristics (DC Power-Down and Supply Current) Table 26.2: DC Characteristics: Power-Down and Supply Current, on page 317, is modified. The modified values - typical and maximum values for parameter D022A (Brown-out Reset), parameter D022B (Low-Voltage Detect), D025 (Timer1 Oscillator) and D026 (A/D Converter) - are indicated in bold text in the Table 26-2. TABLE 26-2: DC Characteristics: Power-Down and Supply Current PIC18F2220/2320/4220/4320 (Industrial) PIC18LF2220/2320/4220/4320 (Industrial) (Continued) PIC18LF2220/2320/4220/4320 (Industrial) Standard Operating Conditions: (unless otherwise stated) Operating temperature -40C TA +85C for Industrial PIC18F2220/2320/4220/4320 (Industrial, Extended) Standard Operating Conditions: (unless otherwise stated) Operating temperature -40C TA +85C for industrial Operating temperature -40C TA +125C for extended Param No. D022 (IWDT) Device 4: Conditions 4.0 A -40C 2.2 4.0 A +25C 3.1 5.0 A +85C 2.5 6.0 A -40C 3.3 6.0 A +25C 4.7 7.0 A +85C 3.7 10.0 A -40C 4.5 10.0 A +25C 6.1 13.0 A +85C 35 50 A 42 60 A Extended Devices Only 46 65 A -40C to +125C Low-Voltage Detect 31 45 A 33 50 A 42 60 A 46 65 A VDD = 2.0V VDD = 3.0V VDD = 5.0V VDD = 3.0V -40C to +85C Extended Devices Only 3: Units Watchdog Timer 1.5 Brown-out Reset D022B (ILVD) 2: Max Module Differential Currents (IWDT, IBOR, ILVD, IOSCB, IAD) D022A (IBOR) Legend: Note 1: Typ VDD = 5.0V VDD = 2.0V -40C to +85C VDD = 3.0V -40C to +125C VDD = 5.0V Shading of rows is to assist in readability of the table. The power-down current in Sleep mode does not depend on the oscillator type. Power-down current is measured with the part in Sleep mode, with all I/O pins in high-impedance state and tied to VDD or VSS and all features that add delta current disabled (such as WDT, Timer1 Oscillator, BOR, etc.). The supply current is mainly a function of operating voltage, frequency and mode. Other factors, such as I/O pin loading and switching rate, oscillator type and circuit, internal code execution pattern and temperature, also have an impact on the current consumption. The test conditions for all IDD measurements in active operation mode are: OSC1 = external square wave, from rail-to-rail; all I/O pins tri-stated, pulled to VDD; MCLR = VDD; WDT enabled/disabled as specified. For RC oscillator configurations, current through REXT is not included. The current through the resistor can be estimated by the formula Ir = VDD/2REXT (mA) with REXT in k. Standard low-cost 32 kHz crystals have an operating temperature range of -10C to +70C. Extended temperature crystals are available at a much higher cost. DS80334B-page 4 (c) 2008 Microchip Technology Inc. PIC18F2220/2320/4220/4320 TABLE 26-2: DC Characteristics: Power-Down and Supply Current PIC18F2220/2320/4220/4320 (Industrial) PIC18LF2220/2320/4220/4320 (Industrial) (Continued) PIC18LF2220/2320/4220/4320 (Industrial) Standard Operating Conditions: (unless otherwise stated) Operating temperature -40C TA +85C for Industrial PIC18F2220/2320/4220/4320 (Industrial, Extended) Standard Operating Conditions: (unless otherwise stated) Operating temperature -40C TA +85C for industrial Operating temperature -40C TA +125C for extended Param No. D025 (IOSCB) D026 (IAD) Legend: Note 1: 2: 3: 4: Device Typ Max Units Conditions Timer1 Oscillator 1.7 3.5 A -40C 1.8 3.5 A +25C 2.1 4.5 A +85C 2.2 4.5 A -40C 2.6 4.5 A +25C 2.8 5.5 A +85C 3.0 6.0 A -40C 3.3 6.0 A +25C 3.4 7.0 A +85C A/D Converter 1.0 3.0 A -40C to +85C VDD = 2.0V 1.0 4.0 A -40C to +85C VDD = 3.0V 2.0 10.0 A -40C to +85C VDD = 5.0V 1.0 8.0 A -40C to +125C VDD = 5.0V VDD = 2.0V 32 kHz on Timer1(4) VDD = 3.0V 32 kHz on Timer1(4) VDD = 5.0V 32 kHz on Timer1(4) A/D on, not converting Shading of rows is to assist in readability of the table. The power-down current in Sleep mode does not depend on the oscillator type. Power-down current is measured with the part in Sleep mode, with all I/O pins in high-impedance state and tied to VDD or VSS and all features that add delta current disabled (such as WDT, Timer1 Oscillator, BOR, etc.). The supply current is mainly a function of operating voltage, frequency and mode. Other factors, such as I/O pin loading and switching rate, oscillator type and circuit, internal code execution pattern and temperature, also have an impact on the current consumption. The test conditions for all IDD measurements in active operation mode are: OSC1 = external square wave, from rail-to-rail; all I/O pins tri-stated, pulled to VDD; MCLR = VDD; WDT enabled/disabled as specified. For RC oscillator configurations, current through REXT is not included. The current through the resistor can be estimated by the formula Ir = VDD/2REXT (mA) with REXT in k. Standard low-cost 32 kHz crystals have an operating temperature range of -10C to +70C. Extended temperature crystals are available at a much higher cost. (c) 2008 Microchip Technology Inc. DS80334B-page 5 PIC18F2220/2320/4220/4320 REVISION HISTORY Rev A Document (7/2007) Initial release of this errata. Includes Data Sheet Clarifications 1 (Oscillator Configurations), 2 (Power-Managed Modes), 3-4 (I/O Ports), 5 (Comparator Voltage Reference Module) and 6 (Special Features of the CPU). Rev B Document (6/2008) Removed previous Data Sheet Clarifications 1-6. Added new Data Sheet Clarifications 1 (Power-Managed Modes), 2 (Oscillator Configurations - INTRC), 3 (OSCTUN2 Register) and 4 (Electrical Characteristics - DC Power-Down and Supply Current). DS80334B-page 6 (c) 2008 Microchip Technology Inc. Note the following details of the code protection feature on Microchip devices: * Microchip products meet the specification contained in their particular Microchip Data Sheet. * Microchip believes that its family of products is one of the most secure families of its kind on the market today, when used in the intended manner and under normal conditions. * There are dishonest and possibly illegal methods used to breach the code protection feature. All of these methods, to our knowledge, require using the Microchip products in a manner outside the operating specifications contained in Microchip's Data Sheets. Most likely, the person doing so is engaged in theft of intellectual property. * Microchip is willing to work with the customer who is concerned about the integrity of their code. * Neither Microchip nor any other semiconductor manufacturer can guarantee the security of their code. Code protection does not mean that we are guaranteeing the product as "unbreakable." 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