PIC16F505-I/ST Microchip Technology, PIC16F505-I/ST Datasheet
PIC16F505-I/ST
Specifications of PIC16F505-I/ST
Related parts for PIC16F505-I/ST
PIC16F505-I/ST Summary of contents
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... PIC16F505 1.0 PROGRAMMING THE PIC16F505 The PIC16F505 is programmed using a serial method. The Serial mode will allow the PIC16F505 to be programmed while in the user’s system. This allows for increased design flexibility. This specification applies to PIC16F505 devices in all packages ...
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... Legend Input Output Power Note 1: In the PIC16F505, the programming high voltage is internally generated. To activate the Program/Verify mode, V with current capability of I IHH DS41226G-page 2 During Programming Pin Type Pin Description I Clock input – Schmitt Trigger input I/O Data input/output – Schmitt Trigger input ...
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... MEMORY MAPPING 2.1 User Program Memory Map The user memory space extends from (0x000-0x3FF) on the PIC16F505. In Program/Verify mode, the program memory space extends from (0x000-0x7FF). The first half, (0x000-0x3FF), is user program memory. The second half, (0x400-0x7FF), is configuration memory. The PC will increment from (0x000 to 0x3FF), then to 0x400 (not to 0x000) ...
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... Data is transferred LSb first. During Read commands, in which the data is output from the PIC16F505, the ICSPDAT pin transitions from the high-impedance input state to the low-impedance output state at the rising edge of the second data clock (first clock edge after the Start cycle). The ICSPDAT pin returns to the high-impedance state at the rising edge of the 16th data clock (first edge of the Stop cycle) ...
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... READ DATA FROM PROGRAM MEMORY COMMAND ICSPCLK ICSPDAT T 1 SET 2010 Microchip Technology Inc DLY LSb strt_bit DLY 1 HLD T 2 DLY strt_bit LSb T 1 DLY T 1 HLD Input Preliminary PIC16F505 MSb stp_bit T 1 SET -+T 1 HLD DLY stp_bit MSb Input Output DS41226G-page 5 ...
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... PIC16F505 3.1.2.3 Increment Address The PC is incremented when this command is received. A timing diagram of this command is shown in Figure 3- not possible to decrement the address counter. To reset this counter, the user must either exit and re-enter Program/Verify mode or increment the PC from 0x7FF to 0x000. FIGURE 3-4: ...
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... OSCCAL bits into computer/ programmer temporary memory. 2. Enter Program/Verify mode. 3. Increment PC to 0x400 (first user ID location). 4. Perform a Bulk Erase command. 5. Wait T to complete Bulk Erase. ERA 6. Restore OSCCAL bits. 7. Restore backup OSCCAL bits. Preliminary PIC16F505 DIS Next Command 1 2 DS41226G-page 7 ...
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... PIC16F505 TABLE 3-2: BULK ERASE RESULTS Program Memory Space PC = Program Memory Configuration Word or E Program Memory Space First User ID Location E Legend Erased Unaffected FIGURE 3-7: BULK ERASE PROGRAM MEMORY COMMAND 1 2 ICSPCLK 1 ICSPDAT T 1 SET T HLD DS41226G-page 8 Configuration Memory Space Configuration ...
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... FIGURE 3-8: READING AND TEMPORARY SAVING OF THE OSCCAL CALIBRATION BITS Increment Address 2010 Microchip Technology Inc. Start Enter Programming Mode 0x404? Yes Read Backup OSCCAL Calibration Bits and Save in Computer/Programmer Temp. Memory Exit Programming Mode Done Preliminary PIC16F505 DS41226G-page 9 ...
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... PIC16F505 FIGURE 3-9: RESTORING/PROGRAMMING THE OSCCAL CALIBRATION BITS Increment Address Increment Address DS41226G-page 10 Start Enter Programming Mode 0x3FF? Yes Read Back-up OSSCAL Calibration Bits from Computer/Programmer Temp. Memory Write Calibration Bits back as the operand of a MOVLW instruction to 0x3FF 0x404? Yes Read Backup OSCCAL ...
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... FIGURE 3-10: PROGRAM FLOWCHART – PIC16F505 PROGRAM MEMORY Start Read and save OSCCAL bits Figure 3-8 ( Enter Programming Mode PC = 0x7FF (Config Word) Increment Address Bulk Erase Device One Word Program Cycle Read Data from Program Memory Data Correct? Yes No Increment All Programming ...
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... PIC16F505 FIGURE 3-11: PROGRAM FLOWCHART – PIC16F505 CONFIGURATION MEMORY Start Enter Programming Mode PC = 0x7FF (Config Word) Load Data Command One-Word Programming Cycle (see Figure 3-10) Read Data Command Data No Correct ? Yes Increment Address Command No Address = 0x400? Yes Load Data Command One-Word ...
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... PROGRAM FLOWCHART – ERASE PROGRAM MEMORY, CONFIGURATION WORD Start Read and save OSCCAL bits Figure 3 Enter Program/Verify mode PC = 0x7FF (Config Word) 2010 Microchip Technology Inc. Bulk Erase Device Wait T ERA Restore OSCCAL Bits ( Figure 3-9 ) Exit Programming Mode Done Preliminary PIC16F505 DS41226G-page 13 ...
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... PIC16F505 FIGURE 3-13: PROGRAM FLOWCHART – ERASE PROGRAM MEMORY, CONFIGURATION WORD AND USER ID Start Increment PC DS41226G-page 14 Read and save OSCCAL bits Figure 3 Enter Program/Verify mode PC = 0x7FF (Config Word 0x400? (First User ID) Yes Bulk Erase Device OSCCAL bits Wait T ERA Exit Programming ...
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... CONFIGURATION WORD The PIC16F505 has several Configuration bits. These bits can be programmed (reads ‘0’) or left unchanged (reads ‘1’), to select various device configurations. REGISTER 4-1: CONFIGURATION WORD – PIC16F505 — — — — bit 11 Legend Readable bit W = Writable bit -n = Value at POR ‘ ...
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... PIC16F505 5.0 CODE PROTECTION For the PIC16F505, once code protection is enabled, program memory locations 0x040-0x3FE inclusive, read all ‘0’s. Program memory locations 0x000-0x03F and 0x3FF are always unprotected. The user ID locations, backup OSCCAL location and the Configura- tion Word read out in an unprotected fashion ...
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... TABLE 5-1: CHECKSUM COMPUTATIONS – PIC16F505 Device Code-Protect PIC16F505 OFF SUM[0x000:0x3FE] + CFGW & 0x03F ON SUM[0x00:0x3F] + CFGW & 0x03F + SUM_ID Legend: CFGW = Configuration Word SUM[a:b] = [Sum of locations inclusive] SUM_ID = User ID locations masked by 0xF then made into a 16-bit value with ID0 as the Most Significant nibble ...
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... PIC16F505 6.0 PROGRAM/VERIFY MODE ELECTRICAL CHARACTERISTICS TABLE 6-1: AC/DC CHARACTERISTICS TIMING REQUIREMENTS FOR PROGRAM/VERIFY MODE AC/DC CHARACTERISTICS Sym. Characteristics General V V level for programming operations, DDPROG DD program memory V V level for Bulk Erase operations, program DDERA DD memory I I level for programming operations, ...
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... REVISION HISTORY Revision G (02/2010) Revised Section 1.1; Added QFN pin diagram; Revised Note 1, Table 1-1; Revised Section 3.1, 1st para; Added Revision History. 2010 Microchip Technology Inc. Preliminary PIC16F505 DS41226G-page 19 ...
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... PIC16F505 NOTES: DS41226G-page 20 Preliminary 2010 Microchip Technology Inc. ...
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... PICtail, REAL ICE, rfLAB, Select Mode, Total Endurance, TSHARC, UniWinDriver, WiperLock and ZENA are trademarks of Microchip Technology Incorporated in the U.S.A. and other countries. SQTP is a service mark of Microchip Technology Incorporated in the U.S.A. All other trademarks mentioned herein are property of their respective companies. ...
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