PIC16C54B-04I/SO Microchip Technology, PIC16C54B-04I/SO Datasheet
PIC16C54B-04I/SO
Specifications of PIC16C54B-04I/SO
Related parts for PIC16C54B-04I/SO
PIC16C54B-04I/SO Summary of contents
Page 1
... All instructions are single cycle (200 ns) except for program branches which are two-cycle • Operating speed MHz clock input DC - 200 ns instruction cycle EPROM/ Device Pins I/O PIC16C52 18 12 PIC16C54 18 12 PIC16C54A 18 12 PIC16C54B 18 12 PIC16C54C 18 12 PIC16CR54A 18 12 PIC16CR54B 18 12 PIC16CR54C 18 12 PIC16C55 28 ...
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... RC3 8 21 RC2 9 20 RC1 10 19 RC0 11 18 RB7 RB6 RB5 MCLR OSC1/CLKIN 26 3 OSC2/CLKOUT 4 25 RC7 5 24 RC6 6 23 RC5 7 22 RC4 8 21 RC3 9 20 RC2 10 19 RC1 11 18 RC0 12 17 RB7 13 16 RB6 14 15 RB5 1998 Microchip Technology Inc. ...
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... Device Differences Oscillator Voltage Device Selection Range (Program) PIC16C52 3.0-6.25 PIC16C54 2.5-6.25 Factory PIC16C54A 2.0-6.25 PIC16C54B 2.5-5.5 PIC16C54C 2.5-5.5 PIC16C55 2.5-6.25 Factory PIC16C55A 2.5-5.5 PIC16C56 2.5-6.25 Factory PIC16C56A 2.5-5.5 PIC16C57 2.5-6.25 Factory PIC16C57C 2.5-5.5 PIC16C58A 2.0-6.25 PIC16C58B 2.5-5.5 PIC16CR54A 2.5-6.25 Factory PIC16CR54B 2 ...
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... Electrical Characteristics - PIC16CR58A.........................................................................................................145 18.0 DC and AC Characteristics - PIC16C54A/CR57B/C58A/CR58A ....................................................................159 19.0 Electrical Characteristics - PIC16C54B/C54C/CR54B/CR54C/C55A/C56A/CR56A/C57C/CR57C/C58B/CR58B ....................................171 20.0 DC and AC Characteristics - PIC16C54B/C54C/CR54B/CR54C/C55A/C56A/CR56A/C57C/CR57C/C58B/CR58B ....................................183 21.0 Packaging Information .....................................................................................................................................195 Appendix A: Compatibility ...........................................................................................................................................207 Index .........................................................................................................................................................................209 On-Line Support ..........................................................................................................................................................211 PIC16C5X Product Identification System....................................................................................................................213 PIC16C54/55/56/57 Product Identification System .....................................................................................................214 ...
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... GENERAL DESCRIPTION The PIC16C5X from Microchip Technology is a family of low-cost, high performance, 8-bit, fully static, EPROM/ ROM-based CMOS microcontrollers. It employs a RISC architecture with only 33 single word/single cycle instructions. All instructions are sin- gle cycle (200 ns) except for program branches which take two cycles ...
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... SSOP Preliminary PIC16C55s PIC16C56s 20 20 512 1K — — TMR0 TMR0 28-pin DIP, 18-pin DIP, SOIC; SOIC; 28-pin SSOP 20-pin SSOP PIC16C58s PIC16CR58s — — TMR0 TMR0 18-pin DIP, 18-pin DIP, SOIC; SOIC; 20-pin SSOP 20-pin SSOP 1998 Microchip Technology Inc. ...
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... OTP devices but with all EPROM locations and configuration bit options already programmed by the factory. Certain code and prototype verification procedures apply before production shipments are available. Please contact your Microchip Technology sales office for more details. 2.4 Serialized ...
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... PIC16C5X NOTES: DS30453B-page 8 Preliminary 1998 Microchip Technology Inc. ...
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... PIC16C5X simple yet efficient. In addition, the learning curve is reduced significantly. 1998 Microchip Technology Inc. The PIC16C5X device contains an 8-bit ALU and working register. The ALU is a general purpose arithmetic unit. It performs arithmetic and Boolean functions between data in the working register and any register fi ...
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... OSC1 OSC2 MCLR “OSC SELECT” 2 “CODE PROTECT” OSCILLATOR/ TIMING & CONTROL CLKOUT “SLEEP” “OPTION” GENERAL PURPOSE 5 REGISTER FILE 5-7 (SRAM) 24, 25 Bytes FSR 8 FROM “TRIS 7” TRISC PORTC 8 8 RC7:RC0 (28-Pin Devices Only) 1998 Microchip Technology Inc. ...
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... OSC2/CLKOUT 15, 5,6 SS Legend input output, I/O = input/output power, — = Not Used, TTL = TTL input Schmitt Trigger input 1998 Microchip Technology Inc. PIC16CR56s, PIC16C58s, PIC16CR58s I/O/P Input Type Levels I/O TTL Bi-directional I/O port I/O TTL I/O TTL I/O TTL I/O ...
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... CLKOUT which has 1/4 the frequency of OSC1, and denotes the instruction cycle rate. P — Positive supply for logic and I/O pins. P — Ground reference for logic and I/O pins. — — Unused, do not connect Preliminary Description not in use SS DD 1998 Microchip Technology Inc. ...
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... PORTA, BIT3 All instructions are single cycle, except for any program branches. These take two cycles since the fetch instruction is “flushed” from the pipeline while the new instruction is being fetched and then executed. 1998 Microchip Technology Inc. 3.2 Instruction Flow/Pipelining An Instruction Cycle consists of four Q cycles (Q1, Q2, Q3 and Q4) ...
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... PIC16C5X NOTES: DS30453B-page 14 Preliminary 1998 Microchip Technology Inc. ...
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... FIGURE 4-1: PIC16C52 PROGRAM MEMORY MAP AND STACK PC<8:0> 9 CALL, RETLW Stack Level 1 Stack Level 2 On-chip Program Memory Reset Vector 1998 Microchip Technology Inc. FIGURE 4-2: CALL, RETLW FIGURE 4-3: CALL, RETLW 000h 17Fh Preliminary PIC16C5X PIC16C54s/CR54s/C55s PROGRAM MEMORY MAP AND STACK PC< ...
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... Stack Level 2 On-chip Program Memory (Page 0) On-chip Program Memory (Page 1) On-chip Program Memory (Page 2) On-chip Program Memory (Page 3) Reset Vector DS30453B-page 16 000h 0FFh 100h 1FFh 200h 2FFh 300h 3FFh 400h 4FFh 500h 5FFh 600h 6FFh 700h 7FFh Preliminary 1998 Microchip Technology Inc. ...
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... GENERAL PURPOSE REGISTER FILE The register file is accessed either directly or indirectly through the file select register FSR (Section 4.7). 1998 Microchip Technology Inc. FIGURE 4-5: PIC16C52, PIC16C54s, PIC16CR54s, PIC16C55s, PIC16C56s, PIC16CR56s REGISTER FILE MAP ...
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... Addresses map back to addresses in Bank 0. 2Fh 4Fh 6Fh 30h 50h 70h General General Purpose Purpose Registers Registers 3Fh 5Fh 7Fh Bank 1 Bank 2 Not a physical register. See Section 4.7 Preliminary 11 General Purpose Registers Bank 3 11 General Purpose Registers Bank 3 1998 Microchip Technology Inc. ...
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... File address 07h is a general purpose register on the PIC16C52, PIC16C54s, PIC16CR54s, PIC16C56s, PIC16CR56s, PIC16C58s and PIC16CR58s. 1998 Microchip Technology Inc. The special registers can be classified into two sets. The special function registers associated with the “ ...
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... STATUS bits, see Section 8.0, Instruction Set Summary. R-1 R/W-x R/W-x R/W bit0 SUBWF RRF or RLF borrow did not occur Load bit with LSb or MSb, respectively borrow occurred Preliminary R = Readable bit W = Writable bit - n = Value at POR reset 1998 Microchip Technology Inc. ...
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... Timer0 Rate WDT Rate (not implemented on PIC16C52 000 001 010 011 100 101 1 : 128 110 1 : 256 111 1998 Microchip Technology Inc. By executing the OPTION instruction, the contents of the W register will be transferred to the OPTION register. A RESET sets the OPTION<5:0> bits. W-1 W-1 W-1 W-1 PSA PS2 PS1 PS0 ...
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... CALL or Modify PCL Instruction 8 7 PCL PC Reset to '0' Instruction Word FIGURE 4-11: LOADING OF PC BRANCH INSTRUCTIONS - PIC16C56s/PIC16CR56s GOTO Instruction Instruction Word 2 PA1:PA0 7 STATUS CALL or Modify PCL Instruction Reset to ‘0’ 2 PA1:PA0 7 STATUS Preliminary PCL 0 0 PCL Instruction Word 0 1998 Microchip Technology Inc. ...
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... PCL Instruction Word Reset to ‘0’ 2 PA1:PA0 7 0 STATUS 1998 Microchip Technology Inc. 4.5.1 PAGING CONSIDERATIONS – PIC16C56 PIC16C58 If the Program Counter is pointing to the last address of a selected memory page, when it increments it will cause the program to continue in the next higher page. ...
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... HOW TO CLEAR RAM USING INDIRECT ADDRESSING movlw 0x10 ;initialize pointer movwf FSR ; to RAM clrf INDF ;clear INDF register incf FSR,F ;inc pointer btfsc FSR,4 ;all done? goto NEXT ;NO, clear next : ;YES, continue Indirect Addressing (FSR) 0 location select bank 1998 Microchip Technology Inc. ...
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... PORTC RC7 RC6 Legend: Shaded boxes = unimplemented, read as ‘0’, – = unimplemented, read as '0 unknown unchanged 1998 Microchip Technology Inc. 5.5 I/O Interfacing The equivalent circuit for an I/O port pin is shown in Figure 5-1. All ports may be used for both input and output operation ...
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... MOVF PORTB,W NOP (Read PORTB) PORTB) Preliminary READ-MODIFY-WRITE INSTRUCTIONS ON AN I/O PORT PORT latch PORT pins ---------- ---------- ;01pp pppp 11pp pppp ;10pp pppp 11pp pppp ; ;10pp pppp 10pp pppp This example shows a write to PORTB followed by a read from PORTB. 1998 Microchip Technology Inc. ...
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... ELECTRICAL STRUCTURE OF T0CKI PIN T0CKI pin Note 1: ESD protection circuits 1998 Microchip Technology Inc. Counter mode is selected by setting the T0CS bit (OPTION<5>). In this mode, Timer0 will increment either on every rising or falling edge of pin T0CKI. The incrementing edge is determined by the source edge select bit T0SE (OPTION< ...
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... Read TMR0 Read TMR0 reads NT0 + 1 reads NT0 + 2 PC+4 PC+5 PC+6 MOVF TMR0,W NT0+1 T0 Read TMR0 Read TMR0 reads NT0 reads NT0 + 1 Value on Value on Power-On MCLR and Bit 0 Reset WDT Reset xxxx xxxx uuuu uuuu PS0 --11 1111 --11 1111 1998 Microchip Technology Inc. ...
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... External clock if no prescaler selected, Prescaler output otherwise. 3: The arrows indicate the points in time where sampling occurs. 1998 Microchip Technology Inc. When a prescaler is used, the external clock input is divided by the asynchronous ripple counter-type prescaler so that the prescaler output is symmetrical. For the external clock to meet the sampling ...
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... WDT ;Clear TMR0 & Prescaler ; are required only if ; desired ;PS<2:0> are 000 or 001 ; desired WDT rate CHANGING PRESCALER (WDT TIMER0) ;Clear WDT and ;prescaler ;Select TMR0, new ;prescale value and ;clock source Data Bus 8 2 TMR0 reg 1998 Microchip Technology Inc. ...
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... LP oscillator Note 1: Refer to the PIC16C5X Programming Specification (Literature Number DS30190) to deter- mine how to access the configuration word. 1998 Microchip Technology Inc. The SLEEP mode is designed to offer a very low current power-down mode. The user can wake up from SLEEP through external reset or through a Watchdog Timer time-out. Several oscillator options are also made available to allow the part to fi ...
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... PIC16C52 supports XT and RC oscillator only. PIC16LV54A supports XT, RC and LP oscillator only. PIC16LV58A supports XT, RC and LP oscillator only. DS30453B-page 32 — — — CP WDTE FOSC1 FOSC0 (not implemented on PIC16C52) (2) Preliminary Register: CONFIG (1) Address : FFFh 1 bit0 1998 Microchip Technology Inc. ...
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... C2 Note 1: See Capacitor Selection tables for recommended values of C1 and C2 series resistor (RS) may be required for AT strip cut crystals varies with the crystal chosen (approx. value = 1998 Microchip Technology Inc. FIGURE 7-4: Clock from ext. system Open TABLE 7-1: Osc Resonator ...
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... PCB trace capacitance or package lead frame capacitance. Preliminary EXTERNAL SERIES RESONANT CRYSTAL OSCILLATOR CIRCUIT (USING XT OSCILLATOR MODE) To Other Devices 330 PIC16C5X 74AS04 74AS04 OSC1 0.1 F OSC2 XTAL 100k variation. Furthermore, the 1998 Microchip Technology Inc. ...
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... V SS Fosc/4 OSC2/CLKOUT Note: If you change from this device to another device, please verify oscillator characteristics in your application. 1998 Microchip Technology Inc. 7.3 Reset PIC16C5X devices may be reset in one of the following ways: • Power-On Reset (POR) for given DD • MCLR reset (normal operation) values ...
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... MCLR or WDT Reset uuuu uuuu 1111 1111 --11 1111 uuuu uuuu uuuu uuuu 1111 1111 000q quuu 1uuu uuuu ---- uuuu uuuu uuuu uuuu uuuu uuuu uuuu CHIP RESET 1998 Microchip Technology Inc. ...
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... For more information on PIC16C5X POR, see Power-Up Considerations - AN522 in the Embedded Control Handbook. The POR circuit does not produce an internal reset when V declines. DD 1998 Microchip Technology Inc. FIGURE 7- pin • External Power-On Reset circuit is required ...
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... T DD this example, the chip will reset properly if, and only if, V1 DS30453B-page 38 T DRT V1 time-out expires long before V has reached its final value. In DRT DD V min DD Preliminary ) DD T DRT ): FAST V RISE TIME SLOW V RISE TIME DD DD 1998 Microchip Technology Inc. ...
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... The DRT will also be triggered upon a Watchdog Timer time-out. This is particularly important for applications using the WDT to wake the PIC16C5X from SLEEP mode automatically. 1998 Microchip Technology Inc. 7.6 Watchdog Timer (WDT) (not implemented on PIC16C52) The Watchdog Timer (WDT free running on-chip RC oscillator which does not require any external components ...
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... DS30453B-page Postscaler 1 Postscaler MUX PSA To TMR0 0 1 PSA MUX WDT Time-out Bit 5 Bit 4 Bit 3 Bit 2 Bit 1 T0CS T0SE PSA PS2 PS1 Preliminary PS2:PS0 Value on Value on Power-On MCLR and Bit 0 Reset WDT Reset PS0 --11 1111 --11 1111 1998 Microchip Technology Inc. ...
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... PD bit. Table 7-3 lists the reset conditions for the special function registers, while Table 7-4 lists the reset conditions for all the registers. 1998 Microchip Technology Inc. 7.8 Reset on Brown-Out A brown-out is a condition where device power (V dips below its minimum value, but not to zero, and then recovers ...
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... SS Note: Microchip will assign a unique pattern number for QTP and SQTP requests and for ROM devices. This pattern number will be unique and traceable to the submitted code. pin. PP Preliminary protection bit(s) have not been 1998 Microchip Technology Inc. ...
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... Register bit field In the set of i talics User defined term (font is courier) 1998 Microchip Technology Inc. All instructions are executed within one single instruction cycle, unless a conditional test is true or the program counter is changed as a result of an instruction. In this case, the execution takes two instruction cycles ...
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... C,DC,Z 1,2,4 ffff None 2,4 ffff Z 2,4 ffff None 2,4 ffff None 2,4 ffff None ffff None ffff Z kkkk None kkkk 0100 PD , kkkk None Z kkkk None kkkk None 0010 kkkk None 0011 0fff None 3 Z kkkk 1998 Microchip Technology Inc. ...
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... AND’ed with the eight-bit literal 'k'. The result is placed in the W register Words: 1 Cycles: 1 Example: ANDLW 0x5F Before Instruction W = 0xA3 After Instruction W = 0x03 1998 Microchip Technology Inc. ANDWF Syntax: Operands: Operation: Status Affected: Z Encoding: Description: . Words: Cycles: Example: Before Instruction W = FSR = After Instruction ...
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... If bit 'b' is '1', then the next instruction fetched during the current instruction execution, is discarded and an NOP is executed instead, making this a 2 cycle instruction. 1 1(2) HERE BTFSS FLAG,1 FALSE GOTO PROCESS_CODE TRUE = address (HERE address (FALSE address (TRUE) 1998 Microchip Technology Inc. ...
Page 47
... Z bit is set. Words: 1 Cycles: 1 Example: CLRF FLAG_REG Before Instruction FLAG_REG = 0x5A After Instruction FLAG_REG = 0x00 1998 Microchip Technology Inc. CLRW Clear W Syntax: [ label ] CLRW Operands: None Operation: 00h 1 Z Status Affected: Z Encoding: 0000 Description: The W register is cleared. Zero bit (Z) is set. Words: 1 ...
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... The upper bits of PC are loaded from STATUS<6:5>. GOTO is a two cycle instruction. Words: 1 Cycles: 2 Example: GOTO THERE After Instruction PC = address (THERE) Preliminary d; skip if result = 0 11df ffff DECFSZ CNT, 1 GOTO LOOP • • GOTO k 511 PC<10:9> kkkk kkkk 1998 Microchip Technology Inc. ...
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... CONTINUE • • • Before Instruction PC = address (HERE) After Instruction CNT = CNT + 1; if CNT = address (CONTINUE); if CNT address (HERE +1) 1998 Microchip Technology Inc. IORLW Syntax: Operands: Operation: Status Affected: Z Encoding: Description: Words: Cycles: Example: Before Instruction W = After Instruction IORWF Syntax: Operands: ...
Page 50
... Before Instruction TEMP_REG = W = After Instruction TEMP_REG = W = NOP No Operation [ label ] Syntax: Operands: None Operation: No operation Status Affected: None Encoding: 0000 Description: No operation. Words: 1 Cycles: 1 Example: NOP Preliminary MOVWF f 001f ffff TEMP_REG 0xFF 0x4F 0x4F 0x4F NOP 0000 0000 1998 Microchip Technology Inc. ...
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... RETLW k1 ;Begin table RETLW k2 ; • • • RETLW kn ; End of table Before Instruction W = 0x07 After Instruction W = value of k8 1998 Microchip Technology Inc. RLF Rotate Left f through Carry Syntax: [ label ] RLF Operands [0,1] Operation: See description below Status Affected: C Encoding: 0011 Description: The contents of register 'f' are rotated one bit to the left through the Carry Flag ...
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... Words: 1 Cycles: 1 Example 1: SUBWF Before Instruction REG1 = After Instruction REG1 = Example 2: Before Instruction REG1 = After Instruction REG1 = Example 3: Before Instruction REG1 = After Instruction REG1 = Preliminary SUBWF f,d dest) 10df ffff REG1 result is positive ; result is zero ; result is negative 1998 Microchip Technology Inc. ...
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... TRIS register ' loaded with the contents of the W register Words: 1 Cycles: 1 Example TRIS PORTA Before Instruction W = 0XA5 After Instruction TRISA = 0XA5 1998 Microchip Technology Inc. XORLW Syntax: Operands: Operation: Status Affected: Z Encoding: Description: Words: Cycles: Example: Before Instruction W After Instruction W XORWF Syntax: ...
Page 54
... PIC16C5X NOTES: DS30453B-page 54 Preliminary 1998 Microchip Technology Inc. ...
Page 55
... Microsoft Windows 3.x environment were chosen to best make these features available to you, the end user compliant version of PICMASTER is available for European Union (EU) countries. 1998 Microchip Technology Inc. 9.3 ICEPIC: Low-Cost PICmicro™ In-Circuit Emulator ICEPIC is a low-cost in-circuit emulator solution for the Microchip PIC12CXXX, PIC16C5X and PIC16CXXX families of 8-bit OTP microcontrollers ...
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... PIC14000, PIC16C5X, PIC16CXXX, and PIC17CXX families. MPASM offers full featured Macro capabilities, conditional assembly, and several source and listing formats. It generates various object code formats to support Microchip's development tools as well as third party programmers. Preliminary include an RS-232 interface, previously unseen in the 8-bit 1998 Microchip Technology Inc. ...
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... Both versions include Microchip’s demonstration board for hands-on experience with fuzzy logic systems implementation. 1998 Microchip Technology Inc. from 9.14 MP-DriveWay Generator MP-DriveWay is an easy-to-use Windows-based Application Code Generator. With MP-DriveWay you can visually configure all the peripherals in a PICmicro ...
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PIC12C5XX PIC14000 PIC16C5X PIC16CXXX EMULATOR PRODUCTS PICMASTER / PICMASTER-CE ü ü ü In-Circuit Emulator MPLAB™-ICE ICEPIC Low-Cost ü ü In-Circuit Emulator SOFTWARE PRODUCTS MPLAB Integrated Development ü ü ü Environment MPLAB C17 Compiler fuzzy TECH -MP Explorer/Edition ü ü ü ...
Page 59
... NOTICE: Stresses above those listed under "Maximum Ratings" may cause permanent damage to the device. This is a stress rating only and functional operation of the device at those or any other conditions above those indicated in the operation listings of this specification is not implied. Exposure to maximum rating conditions for extended periods may affect device reliability. 1998 Microchip Technology Inc. ................................................................................–0 > ...
Page 60
... DR I 1.8 3.3 mA — — can be lowered in SLEEP mode without losing RAM data. measurements in active operation mode are Preliminary PIC16C52 T +70 C (commercial +85 C (industrial) A Conditions MHz OSC Device in SLEEP Mode MHz 5.5 V OSC 3 3 and 1998 Microchip Technology Inc. ...
Page 61
... For RC option, the OSC1/CLKIN pin is a Schmitt Trigger input not recommended that the PIC16C52 be driven with external clock in RC mode. 5: The user may use the better of the two specifications. 1998 Microchip Technology Inc. Standard Operating Conditions (unless otherwise specified) Operating Temperature ...
Page 62
... Low FIGURE 10-1: LOAD CONDITIONS - PIC16C52 Pin DS30453B-page 62 T Time mc MCLR osc oscillator os OSC1 t0 T0CKI P Period R Rise V Valid Z Hi-impedance for all pins except OSC2 for OSC2 in XT mode when external clock is used to drive OSC1 V SS Preliminary PIC16C52 1998 Microchip Technology Inc. ...
Page 63
... Exceeding these specified limits may result in an unstable oscillator operation and/or higher than expected current consumption. When an external clock input is used, the “max” cycle time limit is “DC” (no clock) for all devices. 3: Instruction cycle period (T ) equals four times the input oscillator time base period. CY 1998 Microchip Technology Inc ...
Page 64
... Min (2) — (2) — (2) — (2) — (2) — (2) 0. (2) 0* (3) — TBD TBD (3) — (3) — . OSC Preliminary PIC16C52 New Value (1) Typ Max Units 15** ns — 40 30* — — ns — — ns — 100* ns — — ns — — 25 25** ns 1998 Microchip Technology Inc. ...
Page 65
... Tio I/O Hi-impedance from MCLR Low Z * These parameters are characterized but not tested. Note 1: Data in the Typical (“Typ”) column unless otherwise stated. These parameters are for design guidance only and are not tested. 1998 Microchip Technology Inc +70 C (commercial) A – ...
Page 66
... Section 10.1. DD Min Typ 0 20* — With Prescaler 10* — 0 20* — With Prescaler 10* — 40* — Preliminary PIC16C52 +70 C (commercial) +85 C (industrial) (1) Max Units Conditions — ns — ns — ns — ns — ns Whichever is greater Prescale Value (1, 2, 4,..., 256) 1998 Microchip Technology Inc. ...
Page 67
... Exposure to maximum rating conditions for extended periods may affect device reliability. 1998 Microchip Technology Inc. ......................................................................................................... 0V to +14V ................................................................................. –0. ...
Page 68
... DD N max. at 3.0V, WDT dis PD Freq: 20 MHz max 2.5V to 6.25V V : 2.5V to 6.25V max kHz, 3. max kHz, 3. max. at 3.0V, WDT dis max. at 3.0V, WDT dis PD PD Freq: 40 kHz max. Freq: 40 kHz max. Preliminary PIC16C5X-10 N/A N/A PIC16C5X/JW 1998 Microchip Technology Inc. ...
Page 69
... 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 hi-impedance state and tied to V 1998 Microchip Technology Inc. Standard Operating Conditions (unless otherwise specified) ...
Page 70
... See Section 7.4 for details on Power-On Reset See Section 7.4 for details on Power-On Reset MHz 5.5V OSC MHz 5.5V OSC MHz 5.5V OSC MHz 5.5V OSC MHz 5.5V OSC kHz 3.0V, OSC DD WDT disabled V = 3.0V, WDT enabled 3.0V, WDT disabled DD and 1998 Microchip Technology Inc. ...
Page 71
... 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 hi-impedance state and tied to V 1998 Microchip Technology Inc. Standard Operating Conditions (unless otherwise specified) Operating Temperature – ...
Page 72
... PIC16C5X-RC only V PIC16C5X-XT, 10, HS (5) V For all V (5) V 4.0V < > 5. (4) V PIC16C5X-RC only V PIC16C5X-XT, 10, HS For V 5. PIN DD Pin at hi-impedance 0.25V PIN PIN PIN PIN DD PIC16C5X-XT, 10, HS 8 1.6 mA 4.5V PIC16C5X- –5 –1.0 mA 4.5V PIC16C5X-RC 1998 Microchip Technology Inc. ...
Page 73
... For PIC16C5X-RC devices, the OSC1/CLKIN pin is a Schmitt Trigger input not recommended that the PIC16C5X be driven with external clock in RC mode. 5: The user may use the better of the two specifications. 1998 Microchip Technology Inc. Standard Operating Conditions (unless otherwise specified) Operating Temperature – ...
Page 74
... FIGURE 11-1: LOAD CONDITIONS - PIC16C54/55/56/57 Pin DS30453B-page 74 T Time mc MCLR osc oscillator os OSC1 t0 T0CKI wdt watchdog timer P Period R Rise V Valid Z Hi-impedance for all pins except OSC2 for OSC2 in XT modes when external clock is used to drive OSC1 V SS Preliminary PIC16C54/55/56/57 1998 Microchip Technology Inc. ...
Page 75
... Exceeding these specified limits may result in an unstable oscillator operation and/or higher than expected current consumption. When an external clock input is used, the “max” cycle time limit is “DC” (no clock) for all devices. 3: Instruction cycle period (T ) equals four times the input oscillator time base period. CY 1998 Microchip Technology Inc ...
Page 76
... HS osc mode (Com/Indust osc mode (Extended osc mode ns RC osc mode ns XT osc mode ns 10 MHz mode ns HS osc mode (Com/Indust osc mode (Extended osc mode — oscillator ns HS oscillator s LP oscillator ns XT oscillator ns HS oscillator ns LP oscillator 1998 Microchip Technology Inc. ...
Page 77
... Note 1: Data in the Typical (“Typ”) column is at 5.0V unless otherwise stated. These parameters are for design guidance only and are not tested. 2: Measurements are taken in RC Mode where CLKOUT output See Figure 11-1 for loading conditions. 1998 Microchip Technology Inc ...
Page 78
... C (commercial) A – +85 C (industrial) A – +125 C (extended) A range is described in Section 11.1, Section 11.2 and Section 11.3 DD (1) Min Typ Max 100* — — 9* 18* 30* 9* 18* 30* — — 100* Preliminary PIC16C54/55/56/ Units Conditions 5. 5.0V (Commercial 5.0V (Commercial 1998 Microchip Technology Inc. ...
Page 79
... These parameters are characterized but not tested. Note 1: Data in the Typical (“Typ”) column is at 5.0V unless otherwise stated. These parameters are for design guidance only and are not tested. 1998 Microchip Technology Inc Standard Operating Conditions (unless otherwise specified) ...
Page 80
... PIC16C5X NOTES: DS30453B-page 80 PIC16C54/55/56/57 Preliminary 1998 Microchip Technology Inc. ...
Page 81
... The frequencies are measured on DIP packages. The percentage variation indicated here is part-to-part variation due to normal process distribution. The variation indicated is 3 standard deviation from average value for V 1998 Microchip Technology Inc. Frequency normalized to +25 C Rext 10 k Cext = 100 ...
Page 82
... Measured on DIP Packages, 100 0 3.0 3.5 Preliminary PIC16C54/55/56/57 FREQUENCY vs 100 F EXT 3. 10k 100k 4.0 4.5 5.0 5.5 6.0 V (Volts) DD FREQUENCY vs 300 F EXT 3. 10k 100k 4.0 4.5 5.0 5.5 6.0 V (Volts) DD 1998 Microchip Technology Inc. ...
Page 83
... FIGURE 12-6: MAXIMUM I vs WATCHDOG DISABLED 100 +125˚C +85˚C 10 +70˚C 0˚C –40˚C –55˚ 2.5 3.0 3.5 4.0 4.5 5.0 5.5 6.0 V (Volts) DD 1998 Microchip Technology Inc. , FIGURE 12-7: TYPICAL 2.5 3.0 3.5 4.0 4.5 5.0 5.5 6.0 , FIGURE 12-8: MAXIMUM I ...
Page 84
... DS30453B-page 84 3.5 4.0 4.5 5.0 V (Volts) DD 3.5 4.0 4.5 5.0 V (Volts 3.5 4.0 4.5 5.0 V (Volts) DD Preliminary PIC16C54/55/56/57 DD 5.5 6.0 DD 5.5 6.0 5.5 6.0 1998 Microchip Technology Inc. ...
Page 85
... FIGURE 12-13: MAXIMUM I vs. FREQUENCY (EXTERNAL CLOCK, – + 1.0 7.0 6.5 6.0 0.1 5.5 5.0 4.5 4.0 3.5 3.0 2.5 0.01 10k 1998 Microchip Technology Inc. 1M External Clock Frequency (Hz) 100k 1M External Clock Frequency (Hz) Preliminary PIC16C5X 10M 100M 10M 100M DS30453B-page 85 ...
Page 86
... Max + Max + Typ + MIn – (Volts) DD DS30453B-page 86 1M External Clock Frequency (Hz) FIGURE 12-16: TRANSCONDUCTANCE (gm) 9000 8000 7000 6000 5000 4000 3000 2000 MIn 0 C 100 Preliminary PIC16C54/55/56/57 10M 100M OF HS OSCILLATOR vs Max –40 C Typ +25 C Min + (Volts) DD 1998 Microchip Technology Inc. ...
Page 87
... –5 Min +85 C –10 Typ +25 C –15 Max –40 C –20 –25 0 0.5 1.0 1.5 2.0 V (Volts) OH 1998 Microchip Technology Inc. FIGURE 12-19: TRANSCONDUCTANCE (gm) DD 2500 2000 1500 1000 500 FIGURE 12-20 –10 –20 Typ +25 C –30 –40 1.5 2.0 2.5 3.0 3.5 4.0 2 ...
Page 88
... Typ +25 C Min +85 C 0.5 1.0 1.5 2.0 2.5 3.0 V (Volts) OL INPUT CAPACITANCE FOR PIC16C55/57 Typical Capacitance (pF) 28L PDIP 28L SOIC (600 mil) 5.2 4.8 5.6 4.7 5.0 4.1 17.0 17.0 6.6 3.5 4.6 3.5 4.5 3.5 1998 Microchip Technology Inc. ...
Page 89
... This is a stress rating only and functional operation of the device at those or any other conditions above those indicated in the operation listings of this specification is not implied. Exposure to maximum rating conditions for extended periods may affect device reliability. 1998 Microchip Technology Inc. ............................................................................................................0 to +14V ................................................................................. –0. ...
Page 90
... 6.0 A max at 2 6.0 A max at 2 WDT dis WDT dis Freq: 20 MHz max N/A N/A Preliminary PIC16CR54A PIC16LCR54A-04 N/A N max at 32 kHz 6.0 A max at 2 WDT dis Freq: 200 kHz max 1998 Microchip Technology Inc. ...
Page 91
... 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 hi-impedance state and tied to V 1998 Microchip Technology Inc. Standard Operating Conditions (unless otherwise specified) ...
Page 92
... C (extended) A Conditions Device in SLEEP mode See Section 7.4 for details on Power-on Reset See Section 7.4 for details on Power-on Reset F = 4.0 MHz 5.5V OSC MHz 5.5V OSC MHz 5.5V OSC 3.25V, WDT enabled 3.25V, WDT disabled DD and 1998 Microchip Technology Inc. ...
Page 93
... 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 hi-impedance state and tied to V 1998 Microchip Technology Inc. Standard Operating Conditions (unless otherwise specified) ...
Page 94
... XT, HS and LP options ( 3.0V to 5.5V DD (5) V Full V range ( option only V XT, HS and LP options V For V 5. PIN DD Pin at hi-impedance ( 0.25V PIN PIN PIN PIN DD XT, HS and LP options mA 6. 1.9 mA 6.0V option only –4 –0.8 mA 6.0V option only 1998 Microchip Technology Inc. ...
Page 95
... For the RC option, the OSC1/CLKIN pin is a Schmitt Trigger input not recommended that the PIC16C5X be driven with external clock in RC mode. 5: The user may use the better of the two specifications. 1998 Microchip Technology Inc. Standard Operating Conditions (unless otherwise specified) Operating Temperature – ...
Page 96
... FIGURE 13-1: LOAD CONDITIONS Pin DS30453B-page 96 T Time mc MCLR osc oscillator os OSC1 t0 T0CKI wdt watchdog timer P Period R Rise V Valid Z Hi-impedance for all pins except OSC2 for OSC2 in XT options when external clock is used to drive OSC1 V SS Preliminary PIC16CR54A 1998 Microchip Technology Inc. ...
Page 97
... Exceeding these specified limits may result in an unstable oscillator operation and/or higher than expected current consumption. When an external clock input is used, the “max” cycle time limit is “DC” (no clock) for all devices. 3: Instruction cycle period (T ) equals four times the input oscillator time base period. CY 1998 Microchip Technology Inc ...
Page 98
... XT osc mode ns HS osc mode (04 osc mode (10 osc mode (20 osc mode ns RC osc mode ns XT osc mode ns HS osc mode (04 osc mode (10 osc mode (20 osc mode — oscillator ns HS oscillator s LP oscillator ns XT oscillator ns HS oscillator ns LP oscillator 1998 Microchip Technology Inc. ...
Page 99
... Note 1: Data in the Typical (“Typ”) column is at 5.0V unless otherwise stated. These parameters are for design guidance only and are not tested. 2: Measurements are taken in RC Mode where CLKOUT output See Figure 13-1 for loading conditions. 1998 Microchip Technology Inc ...
Page 100
... C T +85 C (industrial) A – +125 C (extended) A range is described in Section 13.1, Section 13.2 and Section 13.3. DD (1) Min Typ Max 1.0* — — 7.0* 18* 40* 7.0* 18* 30* — — 1.0* Preliminary PIC16CR54A Units Conditions 5. 5.0V (Commercial 5.0V (Commercial 1998 Microchip Technology Inc. ...
Page 101
... These parameters are characterized but not tested. Note 1: Data in the Typical (“Typ”) column is at 5.0V unless otherwise stated. These parameters are for design guidance only and are not tested. 1998 Microchip Technology Inc Standard Operating Conditions (unless otherwise specified) ...
Page 102
... PIC16C5X NOTES: DS30453B-page 102 Preliminary PIC16CR54A 1998 Microchip Technology Inc. ...
Page 103
... This is a stress rating only and functional operation of the device at those or any other conditions above those indicated in the operation listings of this specification is not implied. Exposure to maximum rating conditions for extended periods may affect device reliability. 1998 Microchip Technology Inc. ................................................................................. –0. ...
Page 104
... Freq: 4.0 MHz max 4. max 5.5V Do not use 4.0 A max mode PD 3.0V WDT dis Freq: 20 MHz max 2.5V to 6.25V max 32kHz, 2.5V Do not use in WDT dis LP mode I : 4.0 A max 2.5V WDT dis Freq: 200 kHz max. Preliminary PIC16C54A 1998 Microchip Technology Inc. ...
Page 105
... 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 hi-impedance state and tied to V 1998 Microchip Technology Inc. Standard Operating Conditions (unless otherwise specified) ...
Page 106
... SLEEP mode without losing RAM data. measurements in active operation mode are WDT enabled/disabled as specified. DD Preliminary PIC16C54A T +125 C (extended) A Conditions = 4.0 MHz 5. MHz 5. MHz 5. 3.5V, WDT enabled = 3.5V, WDT disabled = 3.5V, WDT enabled = 3.5V, WDT disabled and 1998 Microchip Technology Inc. ...
Page 107
... 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 hi-impedance state and tied to V 1998 Microchip Technology Inc. Standard Operating Conditions (unless otherwise specified) ...
Page 108
... DD ; WDT enabled/disabled as specified. DD Preliminary PIC16C54A T +70 C (commercial +85 C (industrial) A Conditions = 2.0 MHz 3. kHz 2.5V, WDT disabled kHz 2.5V, WDT disabled DD = 2.5V, WDT enabled = 2.5V, WDT disabled = 2.5V, WDT enabled = 2.5V, WDT disabled and 1998 Microchip Technology Inc. ...
Page 109
... Negative current is defined as coming out of the pin. 4: For the RC option, the OSC1/CLKIN pin is a Schmitt Trigger input not recommended that the PIC16C5X be driven with external clock in RC mode. 5: The user may use the better of the two specifications. 1998 Microchip Technology Inc – ...
Page 110
... FIGURE 14-1: LOAD CONDITIONS - PIC16C54A Pin DS30453B-page 110 T Time mc MCLR osc oscillator os OSC1 t0 T0CKI wdt watchdog timer P Period R Rise V Valid Z Hi-impedance for all pins except OSC2 for OSC2 in XT options when external clock is used to drive OSC1 V SS Preliminary PIC16C54A 1998 Microchip Technology Inc. ...
Page 111
... Exceeding these specified limits may result in an unstable oscillator operation and/or higher than expected current consumption. When an external clock input is used, the “max” cycle time limit is “DC” (no clock) for all devices. 3: Instruction cycle period (T ) equals four times the input oscillator time base period. CY 1998 Microchip Technology Inc ...
Page 112
... HS osc mode (20 osc mode ns RC osc mode ns RC osc mode (PIC16LV54A osc mode ns XT osc mode (PIC16LV54A osc mode (04 osc mode (10 osc mode (20 osc mode — oscillator ns HS oscillator s LP oscillator ns XT oscillator ns HS oscillator ns LP oscillator 1998 Microchip Technology Inc. ...
Page 113
... These parameters are design targets and are not tested. No characterization data available at this time. Note 1: Data in the Typical (“Typ”) column unless otherwise stated. These parameters are for design guidance only and are not tested. 2: Measurements are taken in RC Mode where CLKOUT output See Figure 14-1 for loading conditions. 1998 Microchip Technology Inc ...
Page 114
... Section 14.1, Section 14.2 and Section 14.3. DD (1) Min Typ Max Units 100* — — — — — 9.0* 18* 30* ms 9.0* 18* 30* ms — — 100* ns — — — Preliminary PIC16C54A Conditions 5.0V (PIC16LV54A only 5.0V (Commercial 5.0V (Commercial) DD (PIC16LV54A only) 1998 Microchip Technology Inc. ...
Page 115
... Tt0P T0CKI Period * These parameters are characterized but not tested. Note 1: Data in the Typical (“Typ”) column unless otherwise stated. These parameters are for design guidance only and are not tested. 1998 Microchip Technology Inc Standard Operating Conditions (unless otherwise specified) ...
Page 116
... PIC16C5X NOTES: DS30453B-page 116 Preliminary PIC16C54A 1998 Microchip Technology Inc. ...
Page 117
... This is a stress rating only and functional operation of the device at those or any other conditions above those indicated in the operation listings of this specification is not implied. Exposure to maximum rating conditions for extended periods may affect device reliability. 1998 Microchip Technology Inc. ................................................................................. –0. ...
Page 118
... DD : 4.0 A max at 3.0V 4.0 A max at 3.0V, PD WDT dis WDT dis Freq: 20 MHz max N/A N/A Preliminary PIC16CR57B PIC16LCR57B-04 N/A N/A N 2.5V to 6.25V max at 32 kHz 4.0 A max at 2.5V, PD WDT dis Freq: 200 kHz max 1998 Microchip Technology Inc. ...
Page 119
... 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 hi-impedance state and tied to V 1998 Microchip Technology Inc. Standard Operating Conditions (unless otherwise specified) ...
Page 120
... PIC16CR57B T +125 C (extended) A Conditions Device in SLEEP mode See Section 7.4 for details on Power-on Reset See Section 7.4 for details on Power-on Reset MHz 5.5V OSC MHz 5.5V OSC MHz 5.5V OSC 3.25V, WDT enabled 3.25V, WDT disabled DD and 1998 Microchip Technology Inc. ...
Page 121
... 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 hi-impedance state and tied to V 1998 Microchip Technology Inc. Standard Operating Conditions (unless otherwise specified) ...
Page 122
... For all V (5) V 4.0V < > option only V XT, HS and LP options V For V 5. PIN DD Pin at hi-impedance ( 0.25V PIN PIN PIN PIN DD XT, HS and LP options 8 1.6 mA 4.5V option only –5 –1.0 mA 4.5V option only 1998 Microchip Technology Inc. ...
Page 123
... For the RC option, the OSC1/CLKIN pin is a Schmitt Trigger input not recommended that the PIC16C5X be driven with external clock in RC mode. 5: The user may use the better of the two specifications. 1998 Microchip Technology Inc. Standard Operating Conditions (unless otherwise specified) Operating Temperature – ...
Page 124
... FIGURE 15-1: LOAD CONDITIONS Pin DS30453B-page 124 T Time mc MCLR osc oscillator os OSC1 t0 T0CKI wdt watchdog timer P Period R Rise V Valid Z Hi-impedance for all pins except OSC2 for OSC2 in XT options when external clock is used to drive OSC1 V SS Preliminary PIC16CR57B 1998 Microchip Technology Inc. ...
Page 125
... Exceeding these specified limits may result in an unstable oscillator operation and/or higher than expected current consumption. When an external clock input is used, the “max” cycle time limit is “DC” (no clock) for all devices. 3: Instruction cycle period (T ) equals four times the input oscillator time base period. CY 1998 Microchip Technology Inc ...
Page 126
... XT osc mode ns HS osc mode (04 osc mode (10 osc mode (20 osc mode ns RC osc mode ns XT osc mode ns HS osc mode (04 osc mode (10 osc mode (20 osc mode — oscillator ns HS oscillator s LP oscillator ns XT oscillator ns HS oscillator ns LP oscillator 1998 Microchip Technology Inc. ...
Page 127
... Note 1: Data in the Typical (“Typ”) column is at 5.0V unless otherwise stated. These parameters are for design guidance only and are not tested. 2: Measurements are taken in RC Mode where CLKOUT output See Figure 15-1 for loading conditions. 1998 Microchip Technology Inc ...
Page 128
... C T +85 C (industrial) A – +125 C (extended) A range is described in Section 15.1, Section 15.2 and Section 15.3. DD (1) Min Typ Max 1.0* — — 9.0* 18* 30* 9.0* 18* 30* — — 1.0* Preliminary PIC16CR57B Units Conditions 5. 5.0V (Commercial 5.0V (Commercial 1998 Microchip Technology Inc. ...
Page 129
... These parameters are characterized but not tested. Note 1: Data in the Typical (“Typ”) column is at 5.0V unless otherwise stated. These parameters are for design guidance only and are not tested. 1998 Microchip Technology Inc Standard Operating Conditions (unless otherwise specified) ...
Page 130
... PIC16C5X NOTES: DS30453B-page 130 Preliminary PIC16CR57B 1998 Microchip Technology Inc. ...
Page 131
... This is a stress rating only and functional operation of the device at those or any other conditions above those indicated in the operation listings of this specification is not implied. Exposure to maximum rating conditions for extended periods may affect device reliability. 1998 Microchip Technology Inc. ................................................................................. –0. ...
Page 132
... A max Freq: 200 kHz max. N/A Preliminary PIC16C58A : 3.0V to 6.25V : 0.5 mA typ. at 5.5V 3.0V WDT dis : 3.0V to 6.25V : 0.5 mA typ. at 5.5V 3.0V WDT dis N/A : 2.5V to 6.25V : 28 A max. at 32kHz, 2.5V WDT dis 2.5V WDT dis 1998 Microchip Technology Inc. ...
Page 133
... 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 hi-impedance state and tied to V 1998 Microchip Technology Inc. Standard Operating Conditions (unless otherwise specified) ...
Page 134
... SLEEP mode without losing RAM data. measurements in active operation mode are WDT enabled/disabled as specified. DD Preliminary PIC16C58A T +125 C (extended) A Conditions = 4.0 MHz 5. MHz 5. MHz 5. 3.5V, WDT enabled = 3.5V, WDT disabled = 3.5V, WDT enabled = 3.5V, WDT disabled and 1998 Microchip Technology Inc. ...
Page 135
... 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 hi-impedance state and tied to V 1998 Microchip Technology Inc. Standard Operating Conditions (unless otherwise specified) ...
Page 136
... DD ; WDT enabled/disabled as specified. DD Preliminary PIC16C58A T +70 C (commercial +85 C (industrial) A Conditions = 2.0 MHz 3. kHz 2.5V, WDT disabled kHz 2.5V, WDT disabled DD = 2.5V, WDT enabled = 2.5V, WDT disabled = 2.5V, WDT enabled = 2.5V, WDT disabled and 1998 Microchip Technology Inc. ...
Page 137
... Negative current is defined as coming out of the pin. 4: For the RC option, the OSC1/CLKIN pin is a Schmitt Trigger input not recommended that the PIC16C5X be driven with external clock in RC mode. 5: The user may use the better of the two specifications. 1998 Microchip Technology Inc – ...
Page 138
... FIGURE 16-1: LOAD CONDITIONS - PIC16C58A Pin DS30453B-page 138 T Time mc MCLR osc oscillator os OSC1 t0 T0CKI wdt watchdog timer P Period R Rise V Valid Z Hi-impedance for all pins except OSC2 for OSC2 in XT options when external clock is used to drive OSC1 V SS Preliminary PIC16C58A 1998 Microchip Technology Inc. ...
Page 139
... Exceeding these specified limits may result in an unstable oscillator operation and/or higher than expected current consumption. When an external clock input is used, the “max” cycle time limit is “DC” (no clock) for all devices. 3: Instruction cycle period (T ) equals four times the input oscillator time base period. CY 1998 Microchip Technology Inc ...
Page 140
... HS osc mode (20 osc mode ns RC osc mode ns RC osc mode (PIC16LV58A osc mode ns XT osc mode (PIC16LV58A osc mode (04 osc mode (10 osc mode (20 osc mode — oscillator ns HS oscillator s LP oscillator ns XT oscillator ns HS oscillator ns LP oscillator 1998 Microchip Technology Inc. ...
Page 141
... Note 1: Data in the Typical (“Typ”) column is at 5.0V, 25˚C unless otherwise stated. These parameters are for design guidance only and are not tested. 2: Measurements are taken in RC Mode where CLKOUT output See Figure 16-1 for loading conditions. 1998 Microchip Technology Inc ...
Page 142
... Section 16.1, Section 16.2 and Section 16.3. DD (1) Min Typ Max Units 100* — — — — — 9.0* 18* 30* ms 9.0* 18* 30* ms — — 100* ns — — — Preliminary PIC16C58A Conditions 5.0V (PIC16LV58A only 5.0V (Commercial 5.0V (Commercial) DD (PIC16LV58A only) 1998 Microchip Technology Inc. ...
Page 143
... These parameters are characterized but not tested. Note 1: Data in the Typical (“Typ”) column is at 5.0V unless otherwise stated. These parameters are for design guidance only and are not tested. 1998 Microchip Technology Inc Standard Operating Conditions (unless otherwise specified) ...
Page 144
... PIC16C5X NOTES: DS30453B-page 144 Preliminary PIC16C58A 1998 Microchip Technology Inc. ...
Page 145
... This is a stress rating only and functional operation of the device at those or any other conditions above those indicated in the operation listings of this specification is not implied. Exposure to maximum rating conditions for extended periods may affect device reliability. 1998 Microchip Technology Inc. ................................................................................. –0. ...
Page 146
... DD : 4.0 A max at 3.0V 4.0 A max at 3.0V, PD WDT dis WDT dis Freq: 20 MHz max N/A N/A Preliminary PIC16CR58A PIC16LCR58A-04 N/A N/A N 2.5V to 6.25V max at 32 kHz 4.0 A max at 2.5V, PD WDT dis Freq: 200 kHz max 1998 Microchip Technology Inc. ...
Page 147
... 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 hi-impedance state and tied to V 1998 Microchip Technology Inc. Standard Operating Conditions (unless otherwise specified) ...
Page 148
... C (extended) A Conditions Device in SLEEP mode See Section 7.4 for details on Power-on Reset See Section 7.4 for details on Power-on Reset F = 4.0 MHz 5.5V OSC MHz 5.5V OSC MHz 5.5V OSC 3.25V, WDT enabled 3.25V, WDT disabled DD and 1998 Microchip Technology Inc. ...
Page 149
... 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 hi-impedance state and tied to V 1998 Microchip Technology Inc. Standard Operating Conditions (unless otherwise specified) ...
Page 150
... For all V (5) V 4.0V < > option only V XT, HS and LP options V For V 5. PIN DD Pin at hi-impedance ( 0.25V PIN PIN PIN PIN DD XT, HS and LP options 8 1.6 mA 4.5V option only –5 –1.0 mA 4.5V option only 1998 Microchip Technology Inc. ...
Page 151
... For the RC option, the OSC1/CLKIN pin is a Schmitt Trigger input not recommended that the PIC16C5X be driven with external clock in RC mode. 5: The user may use the better of the two specifications. 1998 Microchip Technology Inc. Standard Operating Conditions (unless otherwise specified) Operating Temperature – ...
Page 152
... FIGURE 17-1: LOAD CONDITIONS - PIC16CR58A Pin DS30453B-page 152 T Time mc MCLR osc oscillator os OSC1 t0 T0CKI wdt watchdog timer P Period R Rise V Valid Z Hi-impedance for all pins except OSC2 for OSC2 in XT options when external clock is used to drive OSC1 V SS Preliminary PIC16CR58A 1998 Microchip Technology Inc. ...
Page 153
... Exceeding these specified limits may result in an unstable oscillator operation and/or higher than expected current consumption. When an external clock input is used, the “max” cycle time limit is “DC” (no clock) for all devices. 3: Instruction cycle period (T ) equals four times the input oscillator time base period. CY 1998 Microchip Technology Inc ...
Page 154
... XT osc mode ns HS osc mode (04 osc mode (10 osc mode (20 osc mode ns RC osc mode ns XT osc mode ns HS osc mode (04 osc mode (10 osc mode (20 osc mode — oscillator ns HS oscillator s LP oscillator ns XT oscillator ns HS oscillator ns LP oscillator 1998 Microchip Technology Inc. ...
Page 155
... Note 1: Data in the Typical (“Typ”) column is at 5.0V unless otherwise stated. These parameters are for design guidance only and are not tested. 2: Measurements are taken in RC Mode where CLKOUT output See Figure 17-1 for loading conditions. 1998 Microchip Technology Inc ...
Page 156
... C T +85 C (industrial) A – +125 C (extended) A range is described in Section 17.1, Section 17.2 and Section 17.3. DD (1) Min Typ Max 1.0* — — 9.0* 18* 30* 9.0* 18* 30* — — 1.0* Preliminary PIC16CR58A Units Conditions 5. 5.0V (Commercial 5.0V (Commercial 1998 Microchip Technology Inc. ...
Page 157
... These parameters are characterized but not tested. Note 1: Data in the Typical (“Typ”) column is at 5.0V unless otherwise stated. These parameters are for design guidance only and are not tested. 1998 Microchip Technology Inc Standard Operating Conditions (unless otherwise specified) ...
Page 158
... PIC16C5X NOTES: DS30453B-page 158 Preliminary PIC16CR58A 1998 Microchip Technology Inc. ...
Page 159
... The frequencies are measured on DIP packages. The percentage variation indicated here is part-to-part variation due to normal process distribution. The variation indicated is 3 standard deviation from average value for V 1998 Microchip Technology Inc. Frequency normalized to +25 C Rext 10 k Cext = 100 ...
Page 160
... FIGURE 18-3: TYPICAL RC OSCILLATOR FREQUENCY vs. V 1.80 1.60 1.40 1.20 1.00 0.80 0.60 Cext=100pF, T=25C 0.40 0.20 0.00 2.5 3 3.5 DS30453B-page 160 PIC16C54A/CR57B/C58A/CR58A , EXT R=3.3K R=5.0K R=10K R=100K 4 4.5 5 VDD(Volts 100 DD EXT 4 4.5 5 VDD(Volts) Preliminary R=3.3K R=5.0K R=10K R=100K 5.5 6 1998 Microchip Technology Inc. ...
Page 161
... Cext=300pF, T=25C 100.00 0.00 2.5 3 3.5 FIGURE 18-5: TYPICAL I vs 2.5 2 1.5 1 0.5 0 2.5 3 3.5 1998 Microchip Technology Inc R=3.3K R=5.0K R=10K R=100K 4 4.5 VDD(Volts) , WATCHDOG DISABLED ( 4.5 VDD(Volts) Preliminary PIC16C5X = 300 F EXT ...
Page 162
... FIGURE 18-7: V (INPUT THRESHOLD VOLTAGE) OF I/O PINS vs 2.00 1.80 1.60 1.40 1.20 1.00 0.80 0.60 2.5 3.0 DS30453B-page 162 PIC16C54A/CR57B/C58A/CR58A , WATCHDOG ENABLED ( 4.5 VDD(Volts) 3.5 4.0 4.5 V (Volts) DD Preliminary 5 5 5.0 5.5 6.0 1998 Microchip Technology Inc. ...
Page 163
... THRESHOLD VOLTAGE) OF OSC1 INPUT TH (IN XT, HS, AND LP MODES) vs. V 3.4 3.2 3.0 2.8 2.6 2.4 2.2 2.0 1.8 1.6 1.4 1.2 1.0 2.5 3.0 1998 Microchip Technology Inc. 3.5 4.0 4.5 5.0 V (Volts 3.5 4.0 4.5 5.0 V (Volts) DD Preliminary PIC16C5X DD 5 ...
Page 164
... FIGURE 18-11: MAXIMUM I vs. FREQUENCY (WDT DIS, RC MODE @ 20 DD 10000 1000 6.0V 5.5V 5.0V 4.5V 4.0V 100 ` 3.5V 3.0V 2.5V 10 100000 DS30453B-page 164 PIC16C54A/CR57B/C58A/CR58A 1000000 Freq(Hz 1000000 Freq(Hz) Preliminary 10000000 F, – +85 C) 10000000 1998 Microchip Technology Inc. ...
Page 165
... FIGURE 18-13: MAXIMUM I vs. FREQUENCY (WDT DIS, RC MODE @ 100 DD 10000 1000 100 10 10000 1998 Microchip Technology Inc 100000 1000000 Freq(Hz) 6.0V 5.5V 5.0V 4.5V 4.0V 3.5V 3.0V 2.5V 100000 1000000 Freq(Hz) Preliminary ...
Page 166
... FIGURE 18-15: MAXIMUM I vs. FREQUENCY (WDT DIS, RC MODE @ 300 DD 10000 1000 6.0V 5.5V 5.0V 100 4.5V 4.0V 3.5V 3.0V 2.5V 10 10000 DS30453B-page 166 PIC16C54A/CR57B/C58A/CR58A 100000 Freq(Hz) 100000 Freq(Hz) Preliminary 1000000 F, – + 1000000 1998 Microchip Technology Inc. ...
Page 167
... Max + Max + Typ + MIn – (Volts) DD 1998 Microchip Technology Inc. TABLE 18-2: Pin RA port RB port MCLR OSC1 OSC2/CLKOUT T0CKI All capacitance values are typical part-to-part variation of 25% (three standard deviations) should be taken into account. MIn Preliminary PIC16C5X INPUT CAPACITANCE FOR ...
Page 168
... V (Volts) DD DS30453B-page 168 PIC16C54A/CR57B/C58A/CR58A FIGURE 18-18: TRANSCONDUCTANCE (gm Typ + Min + FIGURE 18-19: TRANSCONDUCTANCE (gm) 2500 2000 1500 1000 500 0 2 Preliminary OF LP OSCILLATOR vs Max –40 C Typ +25 C Min + (Volts OSCILLATOR vs Max –40 C Typ +25 C Min + (Volts) DD 1998 Microchip Technology Inc. ...
Page 169
... V (Volts) OH FIGURE 18-21 Min +85 C –10 –20 Typ +25 C –30 Max –40 C –40 1.5 2.0 2.5 3.0 3.5 4.0 V (Volts) OH 1998 Microchip Technology Inc. FIGURE 18-22 2.5 3.0 0 0.0 FIGURE 18-23 4.5 5.0 0 0.0 Preliminary PIC16C5X vs ...
Page 170
... PIC16C5X NOTES: DS30453B-page 170 PIC16C54A/CR57B/C58A/CR58A Preliminary 1998 Microchip Technology Inc. ...
Page 171
... PIC16C54B/C54C/CR54B/CR54C/C55A/C56A/CR56A/C57C/CR57C/C58B/CR58B 19.0 ELECTRICAL CHARACTERISTICS - PIC16C54B/C54C/CR54B/CR54C/C55A/C56A/CR56A/C57C/CR57C/C58B/CR 58B † Absolute Maximum Ratings Ambient temperature under bias............................................................................................................ – +125 C Storage temperature ............................................................................................................................. – +150 C Voltage on V with respect to V ..................................................................................................................0 to +7. Voltage on MCLR with respect to V ................................................................................................................0 to +14V SS Voltage on all other pins with respect to V (1) Total power dissipation ...
Page 172
... A max 3.0V WDT dis Freq: 4.0 MHz max 4. max 5. 4.0 A max 3.0V WDT dis Freq: 20 MHz max 3. max 32kHz, 3.0V N/A WDT dis I : 4.0 A max 3.0V WDT dis Freq: 200 kHz max. Preliminary 1998 Microchip Technology Inc. ...
Page 173
... PIC16C54B/C54C/CR54B/CR54C/C55A/C56A/CR56A/C57C/CR57C/C58B/CR58B 19.1 DC Characteristics: PIC16C54B/C54C/C55A/C56A/C57C/C58B-04, 20 (Commercial) PIC16CR54B/CR54C/CR56A/CR57C/CR58B-04, 20 (Commercial) PIC16C54B/C54C/C55A/C56A/C57C/C58B-04I, 20I (Industrial) PIC16CR54B/CR/54C/CR56A/CR57C/CR58B-04I, 20I (Industrial) DC Characteristics Power Supply Pins Characteristic Sym Supply Voltage V DD XT, RC and LP options HS option (2) RAM Data Retention Voltage start voltage to ensure V DD POR Power-On Reset V rise rate to ensure S DD ...
Page 174
... PIC16C5X 19.2 DC Characteristics: PIC16C54B/C54C/C55A/C56A/C57C/C58B-04E, 20E (Extended) PIC16CR54B/CR54C/CR56A/CR57C/CR58B-04E, 20E (Extended) DC Characteristics Power Supply Pins Characteristic Sym Supply Voltage and RC options HS option (2) RAM Data Retention Voltage start voltage to ensure V DD POR Power-On Reset V rise rate to ensure S DD VDD Power-On Reset (3) Supply Current I DD ...
Page 175
... PIC16C54B/C54C/CR54B/CR54C/C55A/C56A/CR56A/C57C/CR57C/C58B/CR58B 19.3 DC Characteristics: PIC16LC5X-04, PIC16LCR5X-04 (Commercial) PIC16LC5X-04I, PIC16LCR5X-04I (Industrial) DC Characteristics Power Supply Pins Characteristic Sym Supply Voltage and RC options LP options (2) RAM Data Retention Voltage start voltage to ensure V DD POR Power-On Reset V rise rate to ensure S DD VDD Power-On Reset (3) Supply Current I DD ...
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... PIC16C5X 19.4 DC Characteristics: PIC16C54B/C54C/C55A/C56A/C57C/C58B-04, 20, PIC16LCR5X-04 (Commercial) PIC16CR54B/CR54C/CR56A/CR57C/CR58B-04, 20 (Commercial) PIC16CR5X-04I, 20I (Commercial) PIC16C54B/C54C/C55A/C56A/C57C/C58B-04I, 20I, PIC16LC5X-04I (Industrial) PIC16C54B/C54C/C55A/C56A/C57C/C58B-04E, 20E (Extended) Standard Operating Conditions (unless otherwise specified) Operating Temperature DC Characteristics All Pins Except Power Supply Pins Operating Voltage V Section 19.3. Characteristic Sym Input Low Voltage ...
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... CLKOUT cy cycle time drt device reset timer io I/O port Uppercase letters and their meanings Fall H High I Invalid (Hi-impedance) L Low FIGURE 19-1: LOAD CONDITIONS - PIC16C54B/C54C/CR54B/CR54C/C55A/C56A/CR56A/C57C/CR57C/C58B/CR58B, PIC16CR5X Pin 1998 Microchip Technology Inc. T Time mc MCLR osc oscillator os OSC1 t0 T0CKI wdt watchdog timer P Period R Rise ...
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... MHz HS osc mode (20) 200 kHz LP osc mode — osc mode — osc mode (04) — osc mode (20) — osc mode — osc mode ns XT osc mode 250 ns HS osc mode (04) 250 ns HS osc mode (20) 200 s LP osc mode 1998 Microchip Technology Inc. ...
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... PIC16C54B/C54C/CR54B/CR54C/C55A/C56A/CR56A/C57C/CR57C/C58B/CR58B TABLE 19-2: EXTERNAL CLOCK TIMING REQUIREMENTS - PIC16C5X, PIC16CR5X (CON’T) AC Characteristics Standard Operating Conditions (unless otherwise specified) Operating Temperature Operating Voltage V Parameter No. Sym Characteristic 2 T Instruction Cycle Time CY 3 TosL, TosH Clock in (OSC1) Low or High Time 4 TosR, TosF Clock in (OSC1) Rise or Fall Time * These parameters are characterized but not tested ...
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... T CY (2) 0* (3) — TBD TBD (3) — (3) — . OSC Preliminary New Value (1) Typ Max Units 15 30 30** ns 5.0 15** ns 5.0 15** ns — 40 30* — — ns — — ns — 100* ns — — ns — — 25 25** ns 1998 Microchip Technology Inc. ...
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... PIC16C54B/C54C/CR54B/CR54C/C55A/C56A/CR56A/C57C/CR57C/C58B/CR58B FIGURE 19-4: RESET, WATCHDOG TIMER, AND DEVICE RESET TIMER TIMING - PIC16C5X, PIC16CR5X V DD MCLR Internal POR 32 DRT Time-out Internal RESET Watchdog Timer RESET I/O pin (Note 1) Note 1: I/O pins must be taken out of hi-impedance mode by enabling the output drivers in software. TABLE 19-4: RESET, WATCHDOG TIMER, AND DEVICE RESET TIMER - PIC16C5X, PIC16CR5X AC Characteristics Standard Operating Conditions (unless otherwise specifi ...
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... Section 19.1, Section 19.2 and DD Section 19.3. Min Typ 0 20* — With Prescaler 10* — 0 20* — With Prescaler 10* — 40* — Preliminary +70 C (commercial) +85 C (industrial) +125 C (extended) (1) Max Units Conditions — ns — ns — ns — ns — ns Whichever is greater Prescale Value (1, 2, 4,..., 256) 1998 Microchip Technology Inc. ...
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... PIC16C54B/C54C/CR54B/CR54C/C55A/C56A/CR56A/C57C/CR57C/C58 20.0 DC AND AC CHARACTERISTICS - PIC16C54B/C54C/CR54B/CR54C/C55A/C56A/CR56A/C57C /CR57C/C58B/CR58B The graphs and tables provided in this section are for design guidance and are not tested. In some graphs or tables the data presented are outside specified operating range (e.g., outside specified V and devices will operate properly only within the specified range. ...
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... MHz 100 k 262.15 kHz 3.3 k 1.63 MHz 5 k 1.19 MHz 10 k 684.64 kHz 100 k 71.56 kHz 3.3 k 660 kHz 5.0 k 484.1 kHz 10 k 267.63 kHz 160 k 29.44 kHz = Preliminary Average Fosc @ 27% 21% 21% 31% 13% 13% 18% 25% 10% 14% 15% 19% 1998 Microchip Technology Inc. ...
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... PIC16C54B/C54C/CR54B/CR54C/C55A/C56A/CR56A/C57C/CR57C/C58 FIGURE 20-2: TYPICAL RC OSCILLATOR FREQUENCY vs. V 6.00 5.00 4.00 3.00 2.00 Cext=20pF, T=25C 1.00 0.00 2.5 3 3.5 FIGURE 20-3: TYPICAL RC OSCILLATOR FREQUENCY vs. V 1.80 1.60 1.40 1.20 1.00 0.80 0.60 Cext=100pF, T=25C 0.40 0.20 0.00 2.5 3 3.5 1998 Microchip Technology Inc. ...
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... Cext=300pF, T=25C 100.00 0.00 2.5 3 3.5 FIGURE 20-5: TYPICAL I vs 2.5 2 1.5 1 0.5 0 2.5 3 3.5 DS30453B-page 186 , C DD R=3.3K R=5.0K R=10K R=100K 4 4.5 VDD(Volts) , WATCHDOG DISABLED ( 4.5 VDD(Volts) Preliminary = 300 F EXT 5.5 6 1998 Microchip Technology Inc. ...
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... PIC16C54B/C54C/CR54B/CR54C/C55A/C56A/CR56A/C57C/CR57C/C58 FIGURE 20-6: TYPICAL I vs 2.5 3 3.5 FIGURE 20-7: TYPICAL I vs 2.5 3 3.5 1998 Microchip Technology Inc. , WATCHDOG ENABLED ( 4.5 VDD (Volts) , WATCHDOG ENABLED ( – 4.5 VDD (Volts) Preliminary 5 5 5.5 6 DS30453B-page 187 ...
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... DS30453B-page 188 3.5 4.0 4.5 5.0 V (Volts) DD 3.5 4.0 4.5 5.0 V (Volts 3.5 4.0 4.5 5.0 V (Volts) DD Preliminary DD 5.5 6.0 DD 5.5 6.0 5.5 6.0 1998 Microchip Technology Inc. ...
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... PIC16C54B/C54C/CR54B/CR54C/C55A/C56A/CR56A/C57C/CR57C/C58 FIGURE 20-11: TYPICAL I vs. FREQUENCY (WDT DIS, RC MODE @ 20 DD 10000 1000 5.5V 100 4.5V 3.5V 2.5V 10 100000 FIGURE 20-12: TYPICAL I vs. FREQUENCY (WDT DIS, RC MODE @ 100 DD 10000 1000 5.5V 100 4.5V 3.5V 2.5V 10 10000 1998 Microchip Technology Inc. 1000000 Freq(Hz) ...
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... PIC16C5X FIGURE 20-13: TYPICAL I vs. FREQUENCY (WDT DIS, RC MODE @ 300 DD 10000 1000 100 5.5V 4.5V 3.5V 2.5V 10 10000 DS30453B-page 190 P 100000 Freq(Hz) Preliminary 1000000 1998 Microchip Technology Inc. ...
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... PIC16C54B/C54C/CR54B/CR54C/C55A/C56A/CR56A/C57C/CR57C/C58 FIGURE 20-14: WDT TIMER TIME-OUT PERIOD vs (Volts) DD 1998 Microchip Technology Inc. TABLE 20-2: Pin RA port RB port MCLR OSC1 OSC2/CLKOUT T0CKI All capacitance values are typical part-to-part Typ +125 C variation of 25% (three standard deviations) should be taken into account. Typ +85 C Typ +25 C Typ – ...
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... FIGURE 20-18 4.5 5.0 0 0.0 Preliminary vs Max –40 C Typ +25 C Min +85 C 0.5 1.0 1.5 2.0 2.5 3.0 V (Volts Max –40 C Typ +25 C Min +85 C 0.5 1.0 1.5 2.0 2.5 3.0 V (Volts) OL 1998 Microchip Technology Inc. ...
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... PIC16C54B/C54C/CR54B/CR54C/C55A/C56A/CR56A/C57C/CR57C/C58 NOTES: 1998 Microchip Technology Inc. Preliminary DS30453B-page 193 ...
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... PIC16C5X NOTES: DS30453B-page 194 Preliminary 1998 Microchip Technology Inc. ...
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... Dimensions “D” and “E” do not include mold flash or protrusions. Mold flash or protrusions shall not exceed 0.010” (0.254 mm) per side or 0.020” (0.508 mm) more than dimensions “D” or “E.” 1998 Microchip Technology Inc ...
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... Microchip Technology Inc. ...
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... Dimensions “D” and “E” do not include mold flash or protrusions. Mold flash or protrusions shall not exceed 0.010” (0.254 mm) per side or 0.020” (0.508 mm) more than dimensions “D” or “E.” 1998 Microchip Technology Inc ...
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... Preliminary A1 MILLIMETERS NOM MAX 1.27 18 2.50 2.64 1.47 1.73 0.19 0.28 11.58 11.73 7.51 7.59 10.33 10.64 0.50 0.74 0.13 0.25 0.13 0.25 0.41 0. 0.38 0.51 0.27 0.30 0.42 0. 1998 Microchip Technology Inc. ...
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... Dimensions “D” and “E” do not include mold flash or protrusions. Mold flash or protrusions shall not exceed 0.010” (0.254 mm) per side or 0.020” (0.508 mm) more than dimensions “D” or “E.” 1998 Microchip Technology Inc ...
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... Preliminary A1 NOM MAX 0.65 20 1.86 1.99 0.91 1.17 0.13 0.21 7.20 7.33 5.29 5.38 7.78 7.90 0.13 0.25 0.13 0.25 0.51 0. 0.13 0.25 0.18 0.22 0.32 0. 1998 Microchip Technology Inc. ...