/Modules/Sensors/SHT25V01A/SW/PIC16F887/SHT25.c
File deleted
/Modules/Sensors/SHT25V01A/SW/PIC16F887/SHT25.h
File deleted
/Modules/Sensors/SHT25V01A/SW/PIC16F887/main.bak
1,10 → 1,103
#include "main.h"
#include "SHT25.h"
 
void SHT25_soft_reset()
{
i2c_start(); // Start condition
i2c_write(0x80); // Device address
i2c_write(0xFE); // Device command
i2c_stop(); // Stop condition
}
 
#define SHT25_HEATER_ON 0x04
#define SHT25_HEATER_OFF 0x00
#define SHT25_OTP_reload_off 0x02
#define SHT25_RH12_T14 0x00
#define SHT25_RH8_T12 0x01
#define SHT25_RH10_T13 0x80
#define SHT25_RH11_T11 0x81
 
#define SHT25_ADDR 0x80
 
unsigned int8 SHT25_setup(unsigned int8 setup_reg ) // writes to status register and returns its value
{
unsigned int8 reg;
 
i2c_start(); // Start condition
i2c_write(SHT25_ADDR); // Device address
i2c_write(0xE7); // Device command
 
i2c_start(); // Start condition
i2c_write(SHT25_ADDR+1); // Device address
reg=i2c_read(0); // Read status actual status register
 
reg = (reg & 0x3A) | setup_reg;
 
i2c_start(); // Start condition
i2c_write(SHT25_ADDR); // Device address
i2c_write(0xE7); // Write to status register
i2c_write(reg); // Device command
i2c_stop(); // Stop condition
 
return (reg);
}
 
 
float SHT25_get_temp()
{
unsigned int8 MSB, LSB, Check;
unsigned int16 data;
 
i2c_start();
I2C_Write(SHT25_ADDR);
I2C_write(0xE3);
i2c_stop();
delay_ms(100);
i2c_start();
I2C_Write(SHT25_ADDR+1);
MSB=i2c_read(1);
LSB=i2c_read(1);
Check=i2c_read(0);
i2c_stop();
LSB = LSB >> 2; // trow out status bits
 
data = (((unsigned int16) MSB << 8) + (LSB << 4));
return(-46.85 + 175.72*((float)data/0xFFFF));
}
 
float SHT25_get_hum()
{
unsigned int8 MSB, LSB, Check;
unsigned int16 data;
 
i2c_start(); //RH
I2C_Write(SHT25_ADDR);
I2C_write(0xE5);
// i2c_stop();
 
delay_ms(100);
 
i2c_start();
I2C_Write(SHT25_ADDR+1);
MSB=i2c_read(1);
LSB=i2c_read(1);
Check=i2c_read(0);
i2c_stop();
 
// printf("%X %X %X\r\n",MSB, LSB, Check);
 
LSB = LSB >> 2; // trow out status bits
 
data = (((unsigned int16) MSB << 8) + (LSB << 4) );
return( -6.0 + 125.0*((float)data/0xFFFF));
}
 
 
void main()
{
unsigned int8 i=0, sht_config;
unsigned int8 i=0;
 
setup_adc_ports(NO_ANALOGS|VSS_VDD);
setup_adc(ADC_CLOCK_DIV_2);
21,13 → 114,13
 
while(TRUE)
{
if (i<10) sht_config = SHT25_RH12_T14 | SHT25_HEATER_OFF; // loop alters on chip heater on and off to check correct function
if (TRUE)
printf("setup: %X \r\n",SHT25_setup(SHT25_RH12_T14 | SHT25_HEATER_OFF));
else
{
sht_config = SHT25_RH12_T14 | SHT25_HEATER_ON;
if (i > 20) i = 0;
printf("setup: %X \r\n",SHT25_setup(SHT25_RH12_T14 | SHT25_HEATER_ON));
i = 0;
}
printf("setup: %X %X \r\n",SHT25_setup(sht_config),sht_config);
delay_ms (500);
printf("Temp: %f \r\n",SHT25_get_temp());
delay_ms (500);
/Modules/Sensors/SHT25V01A/SW/PIC16F887/main.c
1,13 → 1,103
/*
SHT25 sensor demo firmware
*/
 
#include "main.h"
#include "SHT25.h"
 
void SHT25_soft_reset()
{
i2c_start(); // Start condition
i2c_write(0x80); // Device address
i2c_write(0xFE); // Device command
i2c_stop(); // Stop condition
}
 
#define SHT25_HEATER_ON 0x04
#define SHT25_HEATER_OFF 0x00
#define SHT25_OTP_reload_off 0x02
#define SHT25_RH12_T14 0x00
#define SHT25_RH8_T12 0x01
#define SHT25_RH10_T13 0x80
#define SHT25_RH11_T11 0x81
 
#define SHT25_ADDR 0x80
 
unsigned int8 SHT25_setup(unsigned int8 setup_reg ) // writes to status register and returns its value
{
unsigned int8 reg;
 
i2c_start(); // Start condition
i2c_write(SHT25_ADDR); // Device address
i2c_write(0xE7); // Device command
 
i2c_start(); // Start condition
i2c_write(SHT25_ADDR+1); // Device address
reg=i2c_read(0); // Read status actual status register
 
reg = (reg & 0x3A) | setup_reg;
 
i2c_start(); // Start condition
i2c_write(SHT25_ADDR); // Device address
i2c_write(0xE7); // Write to status register
i2c_write(reg); // Device command
i2c_stop(); // Stop condition
 
return (reg);
}
 
 
float SHT25_get_temp()
{
unsigned int8 MSB, LSB, Check;
unsigned int16 data;
 
i2c_start();
I2C_Write(SHT25_ADDR);
I2C_write(0xE3);
i2c_stop();
delay_ms(100);
i2c_start();
I2C_Write(SHT25_ADDR+1);
MSB=i2c_read(1);
LSB=i2c_read(1);
Check=i2c_read(0);
i2c_stop();
LSB = LSB >> 2; // trow out status bits
 
data = (((unsigned int16) MSB << 8) + (LSB << 4));
return(-46.85 + 175.72*((float)data/0xFFFF));
}
 
float SHT25_get_hum()
{
unsigned int8 MSB, LSB, Check;
unsigned int16 data;
 
i2c_start(); //RH
I2C_Write(SHT25_ADDR);
I2C_write(0xE5);
// i2c_stop();
 
delay_ms(100);
 
i2c_start();
I2C_Write(SHT25_ADDR+1);
MSB=i2c_read(1);
LSB=i2c_read(1);
Check=i2c_read(0);
i2c_stop();
 
// printf("%X %X %X\r\n",MSB, LSB, Check);
 
LSB = LSB >> 2; // trow out status bits
 
data = (((unsigned int16) MSB << 8) + (LSB << 4) );
return( -6.0 + 125.0*((float)data/0xFFFF));
}
 
 
void main()
{
unsigned int8 i=0, sht_config;
unsigned int8 i=0;
 
setup_adc_ports(NO_ANALOGS|VSS_VDD);
setup_adc(ADC_CLOCK_DIV_2);
24,13 → 114,13
 
while(TRUE)
{
if (i<10) sht_config = SHT25_RH12_T14 | SHT25_HEATER_OFF; // loop alters on chip heater on and off to check correct function
if (i<10)
printf("setup: %X \r\n",SHT25_setup(SHT25_RH12_T14 | SHT25_HEATER_OFF));
else
{
sht_config = SHT25_RH12_T14 | SHT25_HEATER_ON;
if (i > 20) i = 0;
printf("setup: %X \r\n",SHT25_setup(SHT25_RH12_T14 | SHT25_HEATER_ON));
i = 0;
}
printf("setup: %X %X \r\n",SHT25_setup(sht_config),sht_config);
delay_ms (500);
printf("Temp: %f \r\n",SHT25_get_temp());
delay_ms (500);
/Modules/Sensors/SHT25V01A/SW/PIC16F887/main.cof
Cannot display: file marked as a binary type.
svn:mime-type = application/octet-stream
/Modules/Sensors/SHT25V01A/SW/PIC16F887/main.err
1,2 → 1,2
Memory usage: ROM=29% RAM=3% - 10%
Memory usage: ROM=28% RAM=3% - 10%
0 Errors, 0 Warnings.
/Modules/Sensors/SHT25V01A/SW/PIC16F887/main.esym
1,7 → 1,7
D G "__PCM__" 0 44 ""4.106""
D G "__DEVICE__" 0 44 "887"
D G "__DATE__" 0 44 ""14-IV-13""
D G "__TIME__" 0 44 ""13:00:06"" "SHT25 sensor demo firmware"
D G "__PCM__" 0 134 ""4.106""
D G "__DEVICE__" 0 134 "887"
D G "__DATE__" 0 134 ""14-IV-13""
D G "__TIME__" 0 134 ""13:34:10"" "Standard Header file for the PIC16F887 device ////////////////"
d G "PIN_A0" 2 20 "40"
d G "PIN_A1" 2 21 "41"
d G "PIN_A2" 2 22 "42"
273,56 → 273,50
d G "INT_RB5" 2 418 "0x0200B08"
d G "INT_RB6" 2 419 "0x0400B08"
d G "INT_RB7" 2 420 "0x0800B08"
D G "SHT25_HEATER_ON" 3 2 "0x04"
D G "SHT25_HEATER_OFF" 3 3 "0x00"
D G "SHT25_OTP_reload_off" 3 4 "0x02"
D G "SHT25_RH12_T14" 3 5 "0x00"
D G "SHT25_RH8_T12" 3 6 "0x01"
D G "SHT25_RH10_T13" 3 7 "0x80"
D G "SHT25_RH11_T11" 3 8 "0x81"
D G "SHT25_ADDR" 3 10 "0x80"
F G "SHT25_soft_reset" 4 1 "void()"
C L "SHT25_soft_reset" 4 3 1 "FUNCTION"
C L "SHT25_soft_reset" 4 3 1 "FUNCTION"
C L "SHT25_soft_reset" 4 3 1 "FUNCTION"
C L "SHT25_soft_reset" 4 3 1 "FUNCTION"
F G "SHT25_setup" 4 9 "int8(int8 setup_reg)"
V L "setup_reg" 4 9 "int8" "writes to status register and returns its value"
V L "reg" 4 11 "int8"
C L "SHT25_setup" 4 3 1 "FUNCTION"
C L "SHT25_setup" 4 3 1 "FUNCTION"
C L "SHT25_setup" 4 3 1 "FUNCTION"
C L "SHT25_setup" 4 3 1 "FUNCTION"
C L "SHT25_setup" 4 3 1 "FUNCTION"
C L "SHT25_setup" 4 3 1 "FUNCTION"
C L "SHT25_setup" 4 3 1 "FUNCTION"
C L "SHT25_setup" 4 3 1 "FUNCTION"
C L "SHT25_setup" 4 3 1 "FUNCTION"
C L "SHT25_setup" 4 3 1 "FUNCTION"
C L "SHT25_setup" 4 3 1 "FUNCTION"
C L "SHT25_setup" 4 3 1 "FUNCTION"
C L "SHT25_setup" 4 3 1 "FUNCTION"
C L "SHT25_setup" 4 3 1 "FUNCTION"
C L "SHT25_setup" 4 3 1 "FUNCTION"
C L "SHT25_setup" 4 3 1 "FUNCTION"
C L "SHT25_setup" 4 3 1 "FUNCTION"
F G "SHT25_get_temp" 4 43 "float()"
V L "MSB" 4 45 "int8"
V L "LSB" 4 45 "int8"
V L "Check" 4 45 "int8"
V L "data" 4 46 "int16"
C L "SHT25_get_temp" 4 3 1 "FUNCTION"
F G "SHT25_get_hum" 4 68 "float()"
V L "MSB" 4 70 "int8"
V L "LSB" 4 70 "int8"
V L "Check" 4 70 "int8"
V L "data" 4 71 "int16"
C L "SHT25_get_hum" 4 3 1 "FUNCTION"
C L "SHT25_get_hum" 4 3 1 "FUNCTION"
F G "MAIN" 0 8 "void()"
V L "i" 0 10 "int8"
V L "sht_config" 0 10 "int8"
C L "MAIN" 0 27 1 "FUNCTION"
F G "SHT25_soft_reset" 0 3 "void()"
C L "SHT25_soft_reset" 0 5 1 "FUNCTION"
C L "SHT25_soft_reset" 0 5 1 "FUNCTION"
C L "SHT25_soft_reset" 0 5 1 "FUNCTION"
C L "SHT25_soft_reset" 0 5 1 "FUNCTION"
D G "SHT25_HEATER_ON" 0 11 "0x04"
D G "SHT25_HEATER_OFF" 0 12 "0x00"
D G "SHT25_OTP_reload_off" 0 13 "0x02"
D G "SHT25_RH12_T14" 0 14 "0x00"
D G "SHT25_RH8_T12" 0 15 "0x01"
D G "SHT25_RH10_T13" 0 16 "0x80"
D G "SHT25_RH11_T11" 0 17 "0x81"
D G "SHT25_ADDR" 0 19 "0x80"
F G "SHT25_setup" 0 21 "int8(int8 setup_reg)"
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V L "reg" 0 23 "int8"
C L "SHT25_setup" 0 5 1 "FUNCTION"
C L "SHT25_setup" 0 5 1 "FUNCTION"
C L "SHT25_setup" 0 5 1 "FUNCTION"
C L "SHT25_setup" 0 5 1 "FUNCTION"
C L "SHT25_setup" 0 5 1 "FUNCTION"
C L "SHT25_setup" 0 5 1 "FUNCTION"
C L "SHT25_setup" 0 5 1 "FUNCTION"
C L "SHT25_setup" 0 5 1 "FUNCTION"
C L "SHT25_setup" 0 5 1 "FUNCTION"
C L "SHT25_setup" 0 5 1 "FUNCTION"
C L "SHT25_setup" 0 5 1 "FUNCTION"
F G "SHT25_get_temp" 0 45 "float()"
V L "MSB" 0 47 "int8"
V L "LSB" 0 47 "int8"
V L "Check" 0 47 "int8"
V L "data" 0 48 "int16"
C L "SHT25_get_temp" 0 5 1 "FUNCTION"
F G "SHT25_get_hum" 0 70 "float()"
V L "MSB" 0 72 "int8"
V L "LSB" 0 72 "int8"
V L "Check" 0 72 "int8"
V L "data" 0 73 "int16"
C L "SHT25_get_hum" 0 5 1 "FUNCTION"
C L "SHT25_get_hum" 0 5 1 "FUNCTION"
C L "SHT25_get_hum" 0 5 1 "FUNCTION"
C L "SHT25_get_hum" 0 5 1 "FUNCTION"
F G "MAIN" 0 98 "void()"
V L "i" 0 100 "int8"
F B "reset_cpu" 0 0
F B "abs" 1 0
F B "sleep_ulpwu" 1 0
/Modules/Sensors/SHT25V01A/SW/PIC16F887/main.hex
2,258 → 2,249
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:1010200003131F129F1200300317880083128701D9
266,36 → 257,38
:1010900008388100831290010030F800920000307F
:1010A000831692008312201520088316870083126E
:1010B000970183169B019C0101309D008312031749
:1010C0008701880189018A1103137B288A1504305E
:1010D00003178D0000308F008A110313D5288A155D
:1010E0000230A300FA30A8008A111D218A15A30B33
:1010F00072282108093C031C7F28A201852804309E
:10110000A2002108143C031CA1012208A3008A119B
:1011100076298A157808A3001D3003178D0000304A
:101120008F00031007300313A7008A113E228A158F
:101130002308A4003730A5008A118D228A1520309B
:10114000B4008A11B3208A152208A4003730A50004
:101150008A118D228A152030B4008A11B3208A1595
:101160000D30B4008A11B3208A150A30B4008A11F8
:10117000B3208A150230A300FA30A8008A111D217D
:101180008A15A30BBC288A114B2D8A157708A3005A
:101190007808A4007908A5007A08A600253003176E
:1011A0008D0000308F00031006300313A7008A1152
:1011B0003E228A15893084002608AA002508A90045
:1011C0002408A8002308A7000230AB008A115C267F
:1011D0008A152030B4008A11B3208A150D30B4006E
:1011E0008A11B3208A150A30B4008A11B3208A15F7
:1011F0000230A300FA30A8008A111D218A15A30B22
:10120000FA288A11432F8A157708A3007808A400CA
:101210007908A5007A08A6002B3003178D0000304E
:101220008F00031005300313A7008A113E228A1590
:10123000893084002608AA002508A9002408A800EF
:101240002308A7000230AB008A115C268A152030E3
:10125000B4008A11B3208A150D30B4008A11B3206E
:101260008A150A30B4008A11B3208A150430A3000D
:10127000FA30A8008A111D218A15A30B3829A10A6A
:041280007928630066
:1010C0008701880189018A11031381288A15043058
:1010D00003178D0000308F008A110313DB288A1557
:1010E0000230A200FA30A7008A1123218A15A20B30
:1010F00072282108093C031CA628A2018A117C2120
:101100008A157808A2001D3003178D0000308F006B
:10111000031007300313A6008A11FE218A15220846
:10112000A3003730A4008A114D228A152030B30065
:101130008A11B9208A150D30B3008A11B9208A1599
:101140000A30B3008A11B9208A15D0280430A200D1
:101150008A117C218A157808A200243003178D009B
:1011600000308F00031007300313A6008A11FE2100
:101170008A152208A3003730A4008A114D228A154F
:101180002030B3008A11B9208A150D30B3008A11BE
:10119000B9208A150A30B3008A11B9208A15A10135
:1011A0000230A200FA30A7008A1123218A15A20B6F
:1011B000D2288A110B2D8A157708A2007808A3007F
:1011C0007908A4007A08A5002B3003178D000030A1
:1011D0008F00031006300313A6008A11FE218A1522
:1011E000893084002508A9002408A8002308A70046
:1011F0002208A6000230AA008A111A268A15203079
:10120000B3008A11B9208A150D30B3008A11B920B4
:101210008A150A30B3008A11B9208A150230A2005B
:10122000FA30A7008A1123218A15A20B10298A11EE
:10123000012F8A157708A2007808A3007908A40076
:101240007A08A500313003178D0000308F0003109D
:1012500005300313A6008A11FE218A158930840007
:101260002508A9002408A8002308A7002208A60032
:101270000230AA008A111A268A152030B3008A117A
:10128000B9208A150D30B3008A11B9208A150A30A9
:10129000B3008A11B9208A150430A200FA30A700E1
:1012A0008A1123218A15A20B4E29A10A79286300ED
:04400E00F42CFF3F50
:00000001FF
;PIC16F887
;CRC=7EA8 CREATED="14-IV-13 13:00"
;CRC=B39D CREATED="14-IV-13 13:34"
/Modules/Sensors/SHT25V01A/SW/PIC16F887/main.lst
1,11 → 1,11
CCS PCM C Compiler, Version 4.106, 47914 14-IV-13 13:00
CCS PCM C Compiler, Version 4.106, 47914 14-IV-13 13:34
 
Filename: D:\MLAB\Modules\Sensors\SHT25V01A\SW\PIC16F887\main.lst
Filename: Z:\home\kaklik\MLAB\Modules\Sensors\SHT25V01A\SW\PIC16F887\main.lst
 
ROM used: 2363 words (29%)
ROM used: 2319 words (28%)
Largest free fragment is 2048
RAM used: 12 (3%) at main() level
38 (10%) worst case
RAM used: 11 (3%) at main() level
37 (10%) worst case
Stack: 2 locations
 
*
13,10 → 13,6
0001: MOVWF 0A
0002: GOTO 000
0003: NOP
.................... /*
.................... SHT25 sensor demo firmware
.................... */
....................
.................... #include "main.h"
.................... #include <16F887.h>
.................... //////// Standard Header file for the PIC16F887 device ////////////////
41,289 → 37,287
....................
.................... #use delay(clock=8000000)
*
011D: MOVLW 28
011E: MOVWF 04
011F: BCF 03.7
0120: MOVF 00,W
0121: BTFSC 03.2
0122: GOTO 130
0123: MOVLW 02
0124: MOVWF 78
0125: CLRF 77
0126: DECFSZ 77,F
0127: GOTO 126
0128: DECFSZ 78,F
0129: GOTO 125
012A: MOVLW 97
012B: MOVWF 77
0123: MOVLW 27
0124: MOVWF 04
0125: BCF 03.7
0126: MOVF 00,W
0127: BTFSC 03.2
0128: GOTO 136
0129: MOVLW 02
012A: MOVWF 78
012B: CLRF 77
012C: DECFSZ 77,F
012D: GOTO 12C
012E: DECFSZ 00,F
012F: GOTO 123
0130: RETURN
012E: DECFSZ 78,F
012F: GOTO 12B
0130: MOVLW 97
0131: MOVWF 77
0132: DECFSZ 77,F
0133: GOTO 132
0134: DECFSZ 00,F
0135: GOTO 129
0136: RETURN
....................
.................... #use i2c(master, sda=PIN_C4, scl=PIN_C3)
*
0031: MOVLW 08
0032: MOVWF 78
0033: NOP
0034: BCF 07.3
0035: BCF 20.3
0036: MOVF 20,W
0037: BSF 03.5
0038: MOVWF 07
0037: MOVLW 08
0038: MOVWF 78
0039: NOP
003A: BCF 03.5
003B: RLF 28,F
003C: BCF 07.4
003D: BTFSS 03.0
003E: GOTO 045
003F: BSF 20.4
0040: MOVF 20,W
0041: BSF 03.5
0042: MOVWF 07
0043: GOTO 049
0044: BCF 03.5
0045: BCF 20.4
003A: BCF 07.3
003B: BCF 20.3
003C: MOVF 20,W
003D: BSF 03.5
003E: MOVWF 07
003F: NOP
0040: BCF 03.5
0041: RLF 27,F
0042: BCF 07.4
0043: BTFSS 03.0
0044: GOTO 04B
0045: BSF 20.4
0046: MOVF 20,W
0047: BSF 03.5
0048: MOVWF 07
0049: NOP
0049: GOTO 04F
004A: BCF 03.5
004B: BSF 20.3
004B: BCF 20.4
004C: MOVF 20,W
004D: BSF 03.5
004E: MOVWF 07
004F: BCF 03.5
0050: BTFSS 07.3
0051: GOTO 050
0052: DECFSZ 78,F
0053: GOTO 033
0054: NOP
0055: BCF 07.3
0056: BCF 20.3
0057: MOVF 20,W
0058: BSF 03.5
0059: MOVWF 07
004F: NOP
0050: BCF 03.5
0051: BSF 20.3
0052: MOVF 20,W
0053: BSF 03.5
0054: MOVWF 07
0055: BCF 03.5
0056: BTFSS 07.3
0057: GOTO 056
0058: DECFSZ 78,F
0059: GOTO 039
005A: NOP
005B: BCF 03.5
005C: BSF 20.4
005B: BCF 07.3
005C: BCF 20.3
005D: MOVF 20,W
005E: BSF 03.5
005F: MOVWF 07
0060: NOP
0061: NOP
0062: BCF 03.5
0063: BSF 20.3
0064: MOVF 20,W
0065: BSF 03.5
0066: MOVWF 07
0067: BCF 03.5
0068: BTFSS 07.3
0069: GOTO 068
006A: CLRF 78
006B: NOP
006C: BTFSC 07.4
006D: BSF 78.0
006E: BCF 07.3
006F: BCF 20.3
0070: MOVF 20,W
0071: BSF 03.5
0072: MOVWF 07
0073: BCF 03.5
0074: BCF 07.4
0075: BCF 20.4
0061: BCF 03.5
0062: BSF 20.4
0063: MOVF 20,W
0064: BSF 03.5
0065: MOVWF 07
0066: NOP
0067: NOP
0068: BCF 03.5
0069: BSF 20.3
006A: MOVF 20,W
006B: BSF 03.5
006C: MOVWF 07
006D: BCF 03.5
006E: BTFSS 07.3
006F: GOTO 06E
0070: CLRF 78
0071: NOP
0072: BTFSC 07.4
0073: BSF 78.0
0074: BCF 07.3
0075: BCF 20.3
0076: MOVF 20,W
0077: BSF 03.5
0078: MOVWF 07
0079: BCF 03.5
007A: RETURN
007A: BCF 07.4
007B: BCF 20.4
007C: MOVF 20,W
007D: BSF 03.5
007E: MOVWF 07
007F: BCF 03.5
0080: RETURN
*
0131: MOVLW 08
0132: MOVWF 29
0133: MOVF 77,W
0134: MOVWF 2A
0135: BSF 20.4
0136: MOVF 20,W
0137: BSF 03.5
0138: MOVWF 07
0139: NOP
013A: BCF 03.5
013B: BSF 20.3
0137: MOVLW 08
0138: MOVWF 28
0139: MOVF 77,W
013A: MOVWF 29
013B: BSF 20.4
013C: MOVF 20,W
013D: BSF 03.5
013E: MOVWF 07
013F: BCF 03.5
0140: BTFSS 07.3
0141: GOTO 140
0142: BTFSC 07.4
0143: BSF 03.0
0144: BTFSS 07.4
0145: BCF 03.0
0146: RLF 78,F
0147: NOP
0148: BCF 20.3
0149: MOVF 20,W
014A: BSF 03.5
014B: MOVWF 07
014C: BCF 03.5
014D: BCF 07.3
014E: DECFSZ 29,F
014F: GOTO 135
0150: BSF 20.4
0151: MOVF 20,W
0152: BSF 03.5
0153: MOVWF 07
0154: NOP
0155: BCF 03.5
0156: BCF 07.4
0157: MOVF 2A,W
0158: BTFSC 03.2
0159: GOTO 15F
015A: BCF 20.4
015B: MOVF 20,W
015C: BSF 03.5
015D: MOVWF 07
015E: BCF 03.5
015F: NOP
0160: BSF 20.3
013F: NOP
0140: BCF 03.5
0141: BSF 20.3
0142: MOVF 20,W
0143: BSF 03.5
0144: MOVWF 07
0145: BCF 03.5
0146: BTFSS 07.3
0147: GOTO 146
0148: BTFSC 07.4
0149: BSF 03.0
014A: BTFSS 07.4
014B: BCF 03.0
014C: RLF 78,F
014D: NOP
014E: BCF 20.3
014F: MOVF 20,W
0150: BSF 03.5
0151: MOVWF 07
0152: BCF 03.5
0153: BCF 07.3
0154: DECFSZ 28,F
0155: GOTO 13B
0156: BSF 20.4
0157: MOVF 20,W
0158: BSF 03.5
0159: MOVWF 07
015A: NOP
015B: BCF 03.5
015C: BCF 07.4
015D: MOVF 29,W
015E: BTFSC 03.2
015F: GOTO 165
0160: BCF 20.4
0161: MOVF 20,W
0162: BSF 03.5
0163: MOVWF 07
0164: BCF 03.5
0165: BTFSS 07.3
0166: GOTO 165
0167: NOP
0168: BCF 07.3
0169: BCF 20.3
016A: MOVF 20,W
016B: BSF 03.5
016C: MOVWF 07
0165: NOP
0166: BSF 20.3
0167: MOVF 20,W
0168: BSF 03.5
0169: MOVWF 07
016A: BCF 03.5
016B: BTFSS 07.3
016C: GOTO 16B
016D: NOP
016E: BCF 03.5
016F: BCF 07.4
0170: BCF 20.4
0171: MOVF 20,W
0172: BSF 03.5
0173: MOVWF 07
016E: BCF 07.3
016F: BCF 20.3
0170: MOVF 20,W
0171: BSF 03.5
0172: MOVWF 07
0173: NOP
0174: BCF 03.5
0175: RETURN
0175: BCF 07.4
0176: BCF 20.4
0177: MOVF 20,W
0178: BSF 03.5
0179: MOVWF 07
017A: BCF 03.5
017B: RETURN
.................... #use rs232(baud=9600,parity=N,xmit=PIN_B7,rcv=PIN_B6,bits=8) //rcv TXD xmit RXD
*
00B3: BSF 03.5
00B4: BCF 06.7
00B5: BCF 03.5
00B6: BCF 06.7
00B7: MOVLW 08
00B8: MOVWF 78
00B9: GOTO 0BA
00BA: NOP
00BB: BSF 78.7
00BC: GOTO 0CB
00BD: BCF 78.7
00BE: RRF 34,F
00BF: BTFSC 03.0
00C0: BSF 06.7
00C1: BTFSS 03.0
00C2: BCF 06.7
00C3: BSF 78.6
00C4: GOTO 0CB
00C5: BCF 78.6
00C6: DECFSZ 78,F
00C7: GOTO 0BE
00C8: GOTO 0C9
00C9: NOP
00CA: BSF 06.7
00CB: MOVLW 3F
00CC: MOVWF 04
00CD: DECFSZ 04,F
00CE: GOTO 0CD
00B9: BSF 03.5
00BA: BCF 06.7
00BB: BCF 03.5
00BC: BCF 06.7
00BD: MOVLW 08
00BE: MOVWF 78
00BF: GOTO 0C0
00C0: NOP
00C1: BSF 78.7
00C2: GOTO 0D1
00C3: BCF 78.7
00C4: RRF 33,F
00C5: BTFSC 03.0
00C6: BSF 06.7
00C7: BTFSS 03.0
00C8: BCF 06.7
00C9: BSF 78.6
00CA: GOTO 0D1
00CB: BCF 78.6
00CC: DECFSZ 78,F
00CD: GOTO 0C4
00CE: GOTO 0CF
00CF: NOP
00D0: BTFSC 78.7
00D1: GOTO 0BD
00D2: BTFSC 78.6
00D3: GOTO 0C5
00D4: RETURN
00D0: BSF 06.7
00D1: MOVLW 3F
00D2: MOVWF 04
00D3: DECFSZ 04,F
00D4: GOTO 0D3
00D5: NOP
00D6: BTFSC 78.7
00D7: GOTO 0C3
00D8: BTFSC 78.6
00D9: GOTO 0CB
00DA: RETURN
....................
....................
.................... #include "SHT25.h"
....................
.................... #define SHT25_HEATER_ON 0x04
.................... #define SHT25_HEATER_OFF 0x00
.................... #define SHT25_OTP_reload_off 0x02
.................... #define SHT25_RH12_T14 0x00
.................... #define SHT25_RH8_T12 0x01
.................... #define SHT25_RH10_T13 0x80
.................... #define SHT25_RH11_T11 0x81
....................
.................... #define SHT25_ADDR 0x80
....................
.................... #include "SHT25.c"
.................... void SHT25_soft_reset()
.................... {
.................... i2c_start(); // Start condition
*
007B: BSF 20.4
007C: MOVF 20,W
007D: BSF 03.5
007E: MOVWF 07
007F: NOP
0080: BCF 03.5
0081: BSF 20.3
0081: BSF 20.4
0082: MOVF 20,W
0083: BSF 03.5
0084: MOVWF 07
0085: NOP
0086: BCF 03.5
0087: BCF 07.4
0088: BCF 20.4
0089: MOVF 20,W
008A: BSF 03.5
008B: MOVWF 07
008C: NOP
008D: BCF 03.5
008E: BCF 07.3
008F: BCF 20.3
0090: MOVF 20,W
0091: BSF 03.5
0092: MOVWF 07
0087: BSF 20.3
0088: MOVF 20,W
0089: BSF 03.5
008A: MOVWF 07
008B: NOP
008C: BCF 03.5
008D: BCF 07.4
008E: BCF 20.4
008F: MOVF 20,W
0090: BSF 03.5
0091: MOVWF 07
0092: NOP
0093: BCF 03.5
0094: BCF 07.3
0095: BCF 20.3
0096: MOVF 20,W
0097: BSF 03.5
0098: MOVWF 07
.................... i2c_write(0x80); // Device address
0093: MOVLW 80
0094: BCF 03.5
0095: MOVWF 28
0096: CALL 031
0099: MOVLW 80
009A: BCF 03.5
009B: MOVWF 27
009C: CALL 037
.................... i2c_write(0xFE); // Device command
0097: MOVLW FE
0098: MOVWF 28
0099: CALL 031
009D: MOVLW FE
009E: MOVWF 27
009F: CALL 037
.................... i2c_stop(); // Stop condition
009A: BCF 20.4
009B: MOVF 20,W
009C: BSF 03.5
009D: MOVWF 07
009E: NOP
009F: BCF 03.5
00A0: BSF 20.3
00A0: BCF 20.4
00A1: MOVF 20,W
00A2: BSF 03.5
00A3: MOVWF 07
00A4: BCF 03.5
00A5: BTFSS 07.3
00A6: GOTO 0A5
00A7: NOP
00A8: GOTO 0A9
00A9: NOP
00AA: BSF 20.4
00AB: MOVF 20,W
00AC: BSF 03.5
00AD: MOVWF 07
00AE: NOP
00A4: NOP
00A5: BCF 03.5
00A6: BSF 20.3
00A7: MOVF 20,W
00A8: BSF 03.5
00A9: MOVWF 07
00AA: BCF 03.5
00AB: BTFSS 07.3
00AC: GOTO 0AB
00AD: NOP
00AE: GOTO 0AF
00AF: NOP
00B0: BSF 20.4
00B1: MOVF 20,W
00B2: BSF 03.5
00B3: MOVWF 07
00B4: NOP
.................... }
00AF: BCF 03.5
00B0: BSF 0A.3
00B1: BCF 0A.4
00B2: GOTO 066 (RETURN)
00B5: BCF 03.5
00B6: BSF 0A.3
00B7: BCF 0A.4
00B8: GOTO 066 (RETURN)
....................
.................... #define SHT25_HEATER_ON 0x04
.................... #define SHT25_HEATER_OFF 0x00
.................... #define SHT25_OTP_reload_off 0x02
.................... #define SHT25_RH12_T14 0x00
.................... #define SHT25_RH8_T12 0x01
.................... #define SHT25_RH10_T13 0x80
.................... #define SHT25_RH11_T11 0x81
....................
.................... #define SHT25_ADDR 0x80
....................
.................... unsigned int8 SHT25_setup(unsigned int8 setup_reg ) // writes to status register and returns its value
.................... {
.................... unsigned int8 reg;
330,233 → 324,153
....................
.................... i2c_start(); // Start condition
*
0176: BSF 20.4
0177: MOVF 20,W
0178: BSF 03.5
0179: MOVWF 07
017A: NOP
017B: BCF 03.5
017C: BSF 20.3
017C: BSF 20.4
017D: MOVF 20,W
017E: BSF 03.5
017F: MOVWF 07
0180: NOP
0181: BCF 03.5
0182: BCF 07.4
0183: BCF 20.4
0184: MOVF 20,W
0185: BSF 03.5
0186: MOVWF 07
0187: NOP
0188: BCF 03.5
0189: BCF 07.3
018A: BCF 20.3
018B: MOVF 20,W
018C: BSF 03.5
018D: MOVWF 07
0182: BSF 20.3
0183: MOVF 20,W
0184: BSF 03.5
0185: MOVWF 07
0186: NOP
0187: BCF 03.5
0188: BCF 07.4
0189: BCF 20.4
018A: MOVF 20,W
018B: BSF 03.5
018C: MOVWF 07
018D: NOP
018E: BCF 03.5
018F: BCF 07.3
0190: BCF 20.3
0191: MOVF 20,W
0192: BSF 03.5
0193: MOVWF 07
.................... i2c_write(SHT25_ADDR); // Device address
018E: MOVLW 80
018F: BCF 03.5
0190: MOVWF 28
0191: CALL 031
0194: MOVLW 80
0195: BCF 03.5
0196: MOVWF 27
0197: CALL 037
.................... i2c_write(0xE7); // Device command
0192: MOVLW E7
0193: MOVWF 28
0194: CALL 031
0198: MOVLW E7
0199: MOVWF 27
019A: CALL 037
....................
.................... i2c_start(); // Start condition
0195: BSF 20.4
0196: MOVF 20,W
0197: BSF 03.5
0198: MOVWF 07
0199: NOP
019A: BCF 03.5
019B: BSF 20.3
019B: BSF 20.4
019C: MOVF 20,W
019D: BSF 03.5
019E: MOVWF 07
019F: NOP
01A0: BCF 03.5
01A1: BTFSS 07.3
01A2: GOTO 1A1
01A3: BCF 07.4
01A4: BCF 20.4
01A5: MOVF 20,W
01A6: BSF 03.5
01A7: MOVWF 07
01A8: NOP
01A9: BCF 03.5
01AA: BCF 07.3
01AB: BCF 20.3
01AC: MOVF 20,W
01AD: BSF 03.5
01AE: MOVWF 07
01A1: BSF 20.3
01A2: MOVF 20,W
01A3: BSF 03.5
01A4: MOVWF 07
01A5: NOP
01A6: BCF 03.5
01A7: BTFSS 07.3
01A8: GOTO 1A7
01A9: BCF 07.4
01AA: BCF 20.4
01AB: MOVF 20,W
01AC: BSF 03.5
01AD: MOVWF 07
01AE: NOP
01AF: BCF 03.5
01B0: BCF 07.3
01B1: BCF 20.3
01B2: MOVF 20,W
01B3: BSF 03.5
01B4: MOVWF 07
.................... i2c_write(SHT25_ADDR+1); // Device address
01AF: MOVLW 81
01B0: BCF 03.5
01B1: MOVWF 28
01B2: CALL 031
01B5: MOVLW 81
01B6: BCF 03.5
01B7: MOVWF 27
01B8: CALL 037
.................... reg=i2c_read(0); // Read status actual status register
01B3: CLRF 77
01B4: CALL 131
01B5: MOVF 78,W
01B6: MOVWF 24
01B9: CLRF 77
01BA: CALL 137
01BB: MOVF 78,W
01BC: MOVWF 23
....................
.................... reg = (reg & 0x3A) | setup_reg;
01B7: MOVF 24,W
01B8: ANDLW 3A
01B9: IORWF 23,W
01BA: MOVWF 24
01BD: MOVF 23,W
01BE: ANDLW 3A
01BF: IORWF 22,W
01C0: MOVWF 23
....................
.................... i2c_start(); // Start condition
01BB: BSF 20.4
01BC: MOVF 20,W
01BD: BSF 03.5
01BE: MOVWF 07
01BF: NOP
01C0: BCF 03.5
01C1: BSF 20.3
01C1: BSF 20.4
01C2: MOVF 20,W
01C3: BSF 03.5
01C4: MOVWF 07
01C5: NOP
01C6: BCF 03.5
01C7: BTFSS 07.3
01C8: GOTO 1C7
01C9: BCF 07.4
01CA: BCF 20.4
01CB: MOVF 20,W
01CC: BSF 03.5
01CD: MOVWF 07
01CE: NOP
01CF: BCF 03.5
01D0: BCF 07.3
01D1: BCF 20.3
01D2: MOVF 20,W
01D3: BSF 03.5
01D4: MOVWF 07
01C7: BSF 20.3
01C8: MOVF 20,W
01C9: BSF 03.5
01CA: MOVWF 07
01CB: NOP
01CC: BCF 03.5
01CD: BTFSS 07.3
01CE: GOTO 1CD
01CF: BCF 07.4
01D0: BCF 20.4
01D1: MOVF 20,W
01D2: BSF 03.5
01D3: MOVWF 07
01D4: NOP
01D5: BCF 03.5
01D6: BCF 07.3
01D7: BCF 20.3
01D8: MOVF 20,W
01D9: BSF 03.5
01DA: MOVWF 07
.................... i2c_write(SHT25_ADDR); // Device address
01D5: MOVLW 80
01D6: BCF 03.5
01D7: MOVWF 28
01D8: CALL 031
.................... i2c_write(0xE6); // Write to status register
01D9: MOVLW E6
01DA: MOVWF 28
01DB: CALL 031
01DB: MOVLW 80
01DC: BCF 03.5
01DD: MOVWF 27
01DE: CALL 037
.................... i2c_write(0xE7); // Write to status register
01DF: MOVLW E7
01E0: MOVWF 27
01E1: CALL 037
.................... i2c_write(reg); // Device command
01DC: MOVF 24,W
01DD: MOVWF 28
01DE: CALL 031
01E2: MOVF 23,W
01E3: MOVWF 27
01E4: CALL 037
.................... i2c_stop(); // Stop condition
01DF: BCF 20.4
01E0: MOVF 20,W
01E1: BSF 03.5
01E2: MOVWF 07
01E3: NOP
01E4: BCF 03.5
01E5: BSF 20.3
01E5: BCF 20.4
01E6: MOVF 20,W
01E7: BSF 03.5
01E8: MOVWF 07
01E9: BCF 03.5
01EA: BTFSS 07.3
01EB: GOTO 1EA
01EC: NOP
01ED: GOTO 1EE
01EE: NOP
01EF: BSF 20.4
01F0: MOVF 20,W
01F1: BSF 03.5
01F2: MOVWF 07
01F3: NOP
01E9: NOP
01EA: BCF 03.5
01EB: BSF 20.3
01EC: MOVF 20,W
01ED: BSF 03.5
01EE: MOVWF 07
01EF: BCF 03.5
01F0: BTFSS 07.3
01F1: GOTO 1F0
01F2: NOP
01F3: GOTO 1F4
01F4: NOP
01F5: BSF 20.4
01F6: MOVF 20,W
01F7: BSF 03.5
01F8: MOVWF 07
01F9: NOP
....................
.................... delay_ms(10);
01F4: MOVLW 0A
01F5: BCF 03.5
01F6: MOVWF 28
01F7: CALL 11D
....................
.................... i2c_start(); // Start condition
01F8: BSF 20.4
01F9: MOVF 20,W
01FA: BSF 03.5
01FB: MOVWF 07
01FC: NOP
01FD: BCF 03.5
01FE: BSF 20.3
01FF: MOVF 20,W
0200: BSF 03.5
0201: MOVWF 07
0202: NOP
0203: BCF 03.5
0204: BCF 07.4
0205: BCF 20.4
0206: MOVF 20,W
0207: BSF 03.5
0208: MOVWF 07
0209: NOP
020A: BCF 03.5
020B: BCF 07.3
020C: BCF 20.3
020D: MOVF 20,W
020E: BSF 03.5
020F: MOVWF 07
.................... i2c_write(SHT25_ADDR); // Device address
0210: MOVLW 80
0211: BCF 03.5
0212: MOVWF 28
0213: CALL 031
.................... i2c_write(0xE7); // Device command
0214: MOVLW E7
0215: MOVWF 28
0216: CALL 031
....................
.................... i2c_start(); // Start condition
0217: BSF 20.4
0218: MOVF 20,W
0219: BSF 03.5
021A: MOVWF 07
021B: NOP
021C: BCF 03.5
021D: BSF 20.3
021E: MOVF 20,W
021F: BSF 03.5
0220: MOVWF 07
0221: NOP
0222: BCF 03.5
0223: BTFSS 07.3
0224: GOTO 223
0225: BCF 07.4
0226: BCF 20.4
0227: MOVF 20,W
0228: BSF 03.5
0229: MOVWF 07
022A: NOP
022B: BCF 03.5
022C: BCF 07.3
022D: BCF 20.3
022E: MOVF 20,W
022F: BSF 03.5
0230: MOVWF 07
.................... i2c_write(SHT25_ADDR+1); // Device address
0231: MOVLW 81
0232: BCF 03.5
0233: MOVWF 28
0234: CALL 031
.................... reg=i2c_read(0); // Read status actual status register
0235: CLRF 77
0236: CALL 131
0237: MOVF 78,W
0238: MOVWF 24
....................
.................... return (reg);
0239: MOVF 24,W
023A: MOVWF 78
01FA: BCF 03.5
01FB: MOVF 23,W
01FC: MOVWF 78
.................... }
023B: BSF 0A.3
023C: BCF 0A.4
023D: GOTO 089 (RETURN)
01FD: RETURN
....................
....................
.................... float SHT25_get_temp()
566,231 → 480,229
....................
.................... i2c_start();
*
054B: BSF 20.4
054C: MOVF 20,W
054D: BSF 03.5
054E: MOVWF 07
054F: NOP
0550: BCF 03.5
0551: BSF 20.3
0552: MOVF 20,W
0553: BSF 03.5
0554: MOVWF 07
0555: NOP
0556: BCF 03.5
0557: BTFSS 07.3
0558: GOTO 557
0559: BCF 07.4
055A: BCF 20.4
055B: MOVF 20,W
055C: BSF 03.5
055D: MOVWF 07
055E: NOP
055F: BCF 03.5
0560: BCF 07.3
0561: BCF 20.3
0562: MOVF 20,W
0563: BSF 03.5
0564: MOVWF 07
050B: BSF 20.4
050C: MOVF 20,W
050D: BSF 03.5
050E: MOVWF 07
050F: NOP
0510: BCF 03.5
0511: BSF 20.3
0512: MOVF 20,W
0513: BSF 03.5
0514: MOVWF 07
0515: NOP
0516: BCF 03.5
0517: BCF 07.4
0518: BCF 20.4
0519: MOVF 20,W
051A: BSF 03.5
051B: MOVWF 07
051C: NOP
051D: BCF 03.5
051E: BCF 07.3
051F: BCF 20.3
0520: MOVF 20,W
0521: BSF 03.5
0522: MOVWF 07
.................... I2C_Write(SHT25_ADDR);
0565: MOVLW 80
0566: BCF 03.5
0567: MOVWF 28
0568: CALL 031
0523: MOVLW 80
0524: BCF 03.5
0525: MOVWF 27
0526: CALL 037
.................... I2C_write(0xE3);
0569: MOVLW E3
056A: MOVWF 28
056B: CALL 031
0527: MOVLW E3
0528: MOVWF 27
0529: CALL 037
.................... i2c_stop();
056C: BCF 20.4
056D: MOVF 20,W
056E: BSF 03.5
056F: MOVWF 07
0570: NOP
0571: BCF 03.5
0572: BSF 20.3
0573: MOVF 20,W
0574: BSF 03.5
0575: MOVWF 07
0576: BCF 03.5
0577: BTFSS 07.3
0578: GOTO 577
0579: NOP
057A: GOTO 57B
057B: NOP
057C: BSF 20.4
057D: MOVF 20,W
057E: BSF 03.5
057F: MOVWF 07
0580: NOP
052A: BCF 20.4
052B: MOVF 20,W
052C: BSF 03.5
052D: MOVWF 07
052E: NOP
052F: BCF 03.5
0530: BSF 20.3
0531: MOVF 20,W
0532: BSF 03.5
0533: MOVWF 07
0534: BCF 03.5
0535: BTFSS 07.3
0536: GOTO 535
0537: NOP
0538: GOTO 539
0539: NOP
053A: BSF 20.4
053B: MOVF 20,W
053C: BSF 03.5
053D: MOVWF 07
053E: NOP
....................
.................... delay_ms(100);
0581: MOVLW 64
0582: BCF 03.5
0583: MOVWF 28
0584: CALL 11D
053F: MOVLW 64
0540: BCF 03.5
0541: MOVWF 27
0542: CALL 123
....................
.................... i2c_start();
0585: BSF 20.4
0586: MOVF 20,W
0587: BSF 03.5
0588: MOVWF 07
0589: NOP
058A: BCF 03.5
058B: BSF 20.3
058C: MOVF 20,W
058D: BSF 03.5
058E: MOVWF 07
058F: NOP
0590: BCF 03.5
0591: BCF 07.4
0592: BCF 20.4
0593: MOVF 20,W
0594: BSF 03.5
0595: MOVWF 07
0596: NOP
0597: BCF 03.5
0598: BCF 07.3
0599: BCF 20.3
059A: MOVF 20,W
059B: BSF 03.5
059C: MOVWF 07
0543: BSF 20.4
0544: MOVF 20,W
0545: BSF 03.5
0546: MOVWF 07
0547: NOP
0548: BCF 03.5
0549: BSF 20.3
054A: MOVF 20,W
054B: BSF 03.5
054C: MOVWF 07
054D: NOP
054E: BCF 03.5
054F: BCF 07.4
0550: BCF 20.4
0551: MOVF 20,W
0552: BSF 03.5
0553: MOVWF 07
0554: NOP
0555: BCF 03.5
0556: BCF 07.3
0557: BCF 20.3
0558: MOVF 20,W
0559: BSF 03.5
055A: MOVWF 07
.................... I2C_Write(SHT25_ADDR+1);
059D: MOVLW 81
059E: BCF 03.5
059F: MOVWF 28
05A0: CALL 031
055B: MOVLW 81
055C: BCF 03.5
055D: MOVWF 27
055E: CALL 037
.................... MSB=i2c_read(1);
05A1: MOVLW 01
05A2: MOVWF 77
05A3: CALL 131
05A4: MOVF 78,W
05A5: MOVWF 23
055F: MOVLW 01
0560: MOVWF 77
0561: CALL 137
0562: MOVF 78,W
0563: MOVWF 22
.................... LSB=i2c_read(1);
05A6: MOVLW 01
05A7: MOVWF 77
05A8: CALL 131
05A9: MOVF 78,W
05AA: MOVWF 24
0564: MOVLW 01
0565: MOVWF 77
0566: CALL 137
0567: MOVF 78,W
0568: MOVWF 23
.................... Check=i2c_read(0);
05AB: CLRF 77
05AC: CALL 131
05AD: MOVF 78,W
05AE: MOVWF 25
0569: CLRF 77
056A: CALL 137
056B: MOVF 78,W
056C: MOVWF 24
.................... i2c_stop();
05AF: BCF 20.4
05B0: MOVF 20,W
05B1: BSF 03.5
05B2: MOVWF 07
05B3: NOP
05B4: BCF 03.5
05B5: BSF 20.3
05B6: MOVF 20,W
05B7: BSF 03.5
05B8: MOVWF 07
05B9: BCF 03.5
05BA: BTFSS 07.3
05BB: GOTO 5BA
05BC: NOP
05BD: GOTO 5BE
05BE: NOP
05BF: BSF 20.4
05C0: MOVF 20,W
05C1: BSF 03.5
05C2: MOVWF 07
05C3: NOP
056D: BCF 20.4
056E: MOVF 20,W
056F: BSF 03.5
0570: MOVWF 07
0571: NOP
0572: BCF 03.5
0573: BSF 20.3
0574: MOVF 20,W
0575: BSF 03.5
0576: MOVWF 07
0577: BCF 03.5
0578: BTFSS 07.3
0579: GOTO 578
057A: NOP
057B: GOTO 57C
057C: NOP
057D: BSF 20.4
057E: MOVF 20,W
057F: BSF 03.5
0580: MOVWF 07
0581: NOP
....................
.................... LSB = LSB >> 2; // trow out status bits
05C4: BCF 03.5
05C5: RRF 24,F
05C6: RRF 24,F
05C7: MOVLW 3F
05C8: ANDWF 24,F
0582: BCF 03.5
0583: RRF 23,F
0584: RRF 23,F
0585: MOVLW 3F
0586: ANDWF 23,F
....................
.................... data = (((unsigned int16) MSB << 8) + (LSB << 4));
05C9: CLRF 29
05CA: MOVF 23,W
05CB: MOVWF 28
05CC: MOVWF 29
05CD: CLRF 28
05CE: SWAPF 24,W
05CF: MOVWF 77
05D0: MOVLW F0
05D1: ANDWF 77,F
0587: CLRF 28
0588: MOVF 22,W
0589: MOVWF 27
058A: MOVWF 28
058B: CLRF 27
058C: SWAPF 23,W
058D: MOVWF 77
058E: MOVLW F0
058F: ANDWF 77,F
0590: MOVF 77,W
0591: ADDWF 27,W
0592: MOVWF 25
0593: MOVF 28,W
0594: MOVWF 26
0595: BTFSC 03.0
0596: INCF 26,F
.................... return(-46.85 + 175.72*((float)data/0xFFFF));
0597: MOVF 26,W
0598: MOVWF 28
0599: MOVF 25,W
059A: MOVWF 27
059B: CALL 26E
059C: MOVF 77,W
059D: MOVWF 27
059E: MOVF 78,W
059F: MOVWF 28
05A0: MOVF 79,W
05A1: MOVWF 29
05A2: MOVF 7A,W
05A3: MOVWF 2A
05A4: MOVWF 2E
05A5: MOVF 79,W
05A6: MOVWF 2D
05A7: MOVF 78,W
05A8: MOVWF 2C
05A9: MOVF 77,W
05AA: MOVWF 2B
05AB: CLRF 32
05AC: MOVLW FF
05AD: MOVWF 31
05AE: MOVLW 7F
05AF: MOVWF 30
05B0: MOVLW 8E
05B1: MOVWF 2F
05B2: CALL 28B
05B3: MOVLW 52
05B4: MOVWF 36
05B5: MOVLW B8
05B6: MOVWF 35
05B7: MOVLW 2F
05B8: MOVWF 34
05B9: MOVLW 86
05BA: MOVWF 33
05BB: MOVF 7A,W
05BC: MOVWF 3A
05BD: MOVF 79,W
05BE: MOVWF 39
05BF: MOVF 78,W
05C0: MOVWF 38
05C1: MOVF 77,W
05C2: MOVWF 37
05C3: CALL 355
05C4: BCF 03.1
05C5: MOVLW 66
05C6: MOVWF 2A
05C7: MOVWF 29
05C8: MOVLW BB
05C9: MOVWF 28
05CA: MOVLW 84
05CB: MOVWF 27
05CC: MOVF 7A,W
05CD: MOVWF 2E
05CE: MOVF 79,W
05CF: MOVWF 2D
05D0: MOVF 78,W
05D1: MOVWF 2C
05D2: MOVF 77,W
05D3: ADDWF 28,W
05D4: MOVWF 26
05D5: MOVF 29,W
05D6: MOVWF 27
05D7: BTFSC 03.0
05D8: INCF 27,F
.................... return(-46.85 + 175.72*((float)data/0xFFFF));
05D9: MOVF 27,W
05DA: MOVWF 29
05DB: MOVF 26,W
05DC: MOVWF 28
05DD: CALL 2AE
05DE: MOVF 77,W
05DF: MOVWF 28
05E0: MOVF 78,W
05E1: MOVWF 29
05E2: MOVF 79,W
05E3: MOVWF 2A
05E4: MOVF 7A,W
05E5: MOVWF 2B
05E6: MOVWF 2F
05E7: MOVF 79,W
05E8: MOVWF 2E
05E9: MOVF 78,W
05EA: MOVWF 2D
05EB: MOVF 77,W
05EC: MOVWF 2C
05ED: CLRF 33
05EE: MOVLW FF
05EF: MOVWF 32
05F0: MOVLW 7F
05F1: MOVWF 31
05F2: MOVLW 8E
05F3: MOVWF 30
05F4: CALL 2CB
05F5: MOVLW 52
05F6: MOVWF 37
05F7: MOVLW B8
05F8: MOVWF 36
05F9: MOVLW 2F
05FA: MOVWF 35
05FB: MOVLW 86
05FC: MOVWF 34
05FD: MOVF 7A,W
05FE: MOVWF 3B
05FF: MOVF 79,W
0600: MOVWF 3A
0601: MOVF 78,W
0602: MOVWF 39
0603: MOVF 77,W
0604: MOVWF 38
0605: CALL 395
0606: BCF 03.1
0607: MOVLW 66
0608: MOVWF 2B
0609: MOVWF 2A
060A: MOVLW BB
060B: MOVWF 29
060C: MOVLW 84
060D: MOVWF 28
060E: MOVF 7A,W
060F: MOVWF 2F
0610: MOVF 79,W
0611: MOVWF 2E
0612: MOVF 78,W
0613: MOVWF 2D
0614: MOVF 77,W
0615: MOVWF 2C
0616: CALL 40A
05D3: MOVWF 2B
05D4: CALL 3CA
.................... }
0617: BSF 0A.3
0618: BCF 0A.4
0619: GOTO 0C5 (RETURN)
05D5: BSF 0A.3
05D6: BCF 0A.4
05D7: GOTO 0DB (RETURN)
....................
.................... float SHT25_get_hum()
.................... {
799,214 → 711,214
....................
.................... i2c_start(); //RH
*
0743: BSF 20.4
0744: MOVF 20,W
0745: BSF 03.5
0746: MOVWF 07
0747: NOP
0748: BCF 03.5
0749: BSF 20.3
074A: MOVF 20,W
074B: BSF 03.5
074C: MOVWF 07
074D: NOP
074E: BCF 03.5
074F: BCF 07.4
0750: BCF 20.4
0751: MOVF 20,W
0752: BSF 03.5
0753: MOVWF 07
0754: NOP
0755: BCF 03.5
0756: BCF 07.3
0757: BCF 20.3
0758: MOVF 20,W
0759: BSF 03.5
075A: MOVWF 07
0701: BSF 20.4
0702: MOVF 20,W
0703: BSF 03.5
0704: MOVWF 07
0705: NOP
0706: BCF 03.5
0707: BSF 20.3
0708: MOVF 20,W
0709: BSF 03.5
070A: MOVWF 07
070B: NOP
070C: BCF 03.5
070D: BCF 07.4
070E: BCF 20.4
070F: MOVF 20,W
0710: BSF 03.5
0711: MOVWF 07
0712: NOP
0713: BCF 03.5
0714: BCF 07.3
0715: BCF 20.3
0716: MOVF 20,W
0717: BSF 03.5
0718: MOVWF 07
.................... I2C_Write(SHT25_ADDR);
075B: MOVLW 80
075C: BCF 03.5
075D: MOVWF 28
075E: CALL 031
0719: MOVLW 80
071A: BCF 03.5
071B: MOVWF 27
071C: CALL 037
.................... I2C_write(0xE5);
075F: MOVLW E5
0760: MOVWF 28
0761: CALL 031
071D: MOVLW E5
071E: MOVWF 27
071F: CALL 037
.................... // i2c_stop();
....................
.................... delay_ms(100);
0762: MOVLW 64
0763: MOVWF 28
0764: CALL 11D
0720: MOVLW 64
0721: MOVWF 27
0722: CALL 123
....................
.................... i2c_start();
0765: BSF 20.4
0766: MOVF 20,W
0767: BSF 03.5
0768: MOVWF 07
0769: NOP
076A: BCF 03.5
076B: BSF 20.3
076C: MOVF 20,W
076D: BSF 03.5
076E: MOVWF 07
076F: NOP
0770: BCF 03.5
0771: BTFSS 07.3
0772: GOTO 771
0773: BCF 07.4
0774: BCF 20.4
0775: MOVF 20,W
0776: BSF 03.5
0777: MOVWF 07
0778: NOP
0779: BCF 03.5
077A: BCF 07.3
077B: BCF 20.3
077C: MOVF 20,W
077D: BSF 03.5
077E: MOVWF 07
0723: BSF 20.4
0724: MOVF 20,W
0725: BSF 03.5
0726: MOVWF 07
0727: NOP
0728: BCF 03.5
0729: BSF 20.3
072A: MOVF 20,W
072B: BSF 03.5
072C: MOVWF 07
072D: NOP
072E: BCF 03.5
072F: BTFSS 07.3
0730: GOTO 72F
0731: BCF 07.4
0732: BCF 20.4
0733: MOVF 20,W
0734: BSF 03.5
0735: MOVWF 07
0736: NOP
0737: BCF 03.5
0738: BCF 07.3
0739: BCF 20.3
073A: MOVF 20,W
073B: BSF 03.5
073C: MOVWF 07
.................... I2C_Write(SHT25_ADDR+1);
077F: MOVLW 81
0780: BCF 03.5
0781: MOVWF 28
0782: CALL 031
073D: MOVLW 81
073E: BCF 03.5
073F: MOVWF 27
0740: CALL 037
.................... MSB=i2c_read(1);
0783: MOVLW 01
0784: MOVWF 77
0785: CALL 131
0786: MOVF 78,W
0787: MOVWF 23
0741: MOVLW 01
0742: MOVWF 77
0743: CALL 137
0744: MOVF 78,W
0745: MOVWF 22
.................... LSB=i2c_read(1);
0788: MOVLW 01
0789: MOVWF 77
078A: CALL 131
078B: MOVF 78,W
078C: MOVWF 24
0746: MOVLW 01
0747: MOVWF 77
0748: CALL 137
0749: MOVF 78,W
074A: MOVWF 23
.................... Check=i2c_read(0);
078D: CLRF 77
078E: CALL 131
078F: MOVF 78,W
0790: MOVWF 25
074B: CLRF 77
074C: CALL 137
074D: MOVF 78,W
074E: MOVWF 24
.................... i2c_stop();
0791: BCF 20.4
0792: MOVF 20,W
0793: BSF 03.5
0794: MOVWF 07
0795: NOP
0796: BCF 03.5
0797: BSF 20.3
0798: MOVF 20,W
0799: BSF 03.5
079A: MOVWF 07
079B: BCF 03.5
079C: BTFSS 07.3
079D: GOTO 79C
079E: NOP
079F: GOTO 7A0
07A0: NOP
07A1: BSF 20.4
07A2: MOVF 20,W
07A3: BSF 03.5
07A4: MOVWF 07
07A5: NOP
074F: BCF 20.4
0750: MOVF 20,W
0751: BSF 03.5
0752: MOVWF 07
0753: NOP
0754: BCF 03.5
0755: BSF 20.3
0756: MOVF 20,W
0757: BSF 03.5
0758: MOVWF 07
0759: BCF 03.5
075A: BTFSS 07.3
075B: GOTO 75A
075C: NOP
075D: GOTO 75E
075E: NOP
075F: BSF 20.4
0760: MOVF 20,W
0761: BSF 03.5
0762: MOVWF 07
0763: NOP
....................
.................... // printf("%X %X %X\r\n",MSB, LSB, Check);
....................
.................... LSB = LSB >> 2; // trow out status bits
07A6: BCF 03.5
07A7: RRF 24,F
07A8: RRF 24,F
07A9: MOVLW 3F
07AA: ANDWF 24,F
0764: BCF 03.5
0765: RRF 23,F
0766: RRF 23,F
0767: MOVLW 3F
0768: ANDWF 23,F
....................
.................... data = (((unsigned int16) MSB << 8) + (LSB << 4) );
07AB: CLRF 29
07AC: MOVF 23,W
07AD: MOVWF 28
07AE: MOVWF 29
07AF: CLRF 28
07B0: SWAPF 24,W
07B1: MOVWF 77
07B2: MOVLW F0
07B3: ANDWF 77,F
07B4: MOVF 77,W
07B5: ADDWF 28,W
07B6: MOVWF 26
07B7: MOVF 29,W
07B8: MOVWF 27
07B9: BTFSC 03.0
07BA: INCF 27,F
0769: CLRF 28
076A: MOVF 22,W
076B: MOVWF 27
076C: MOVWF 28
076D: CLRF 27
076E: SWAPF 23,W
076F: MOVWF 77
0770: MOVLW F0
0771: ANDWF 77,F
0772: MOVF 77,W
0773: ADDWF 27,W
0774: MOVWF 25
0775: MOVF 28,W
0776: MOVWF 26
0777: BTFSC 03.0
0778: INCF 26,F
.................... return( -6.0 + 125.0*((float)data/0xFFFF));
07BB: MOVF 27,W
07BC: MOVWF 29
07BD: MOVF 26,W
07BE: MOVWF 28
07BF: CALL 2AE
07C0: MOVF 77,W
07C1: MOVWF 28
07C2: MOVF 78,W
07C3: MOVWF 29
07C4: MOVF 79,W
07C5: MOVWF 2A
07C6: MOVF 7A,W
07C7: MOVWF 2B
07C8: MOVWF 2F
07C9: MOVF 79,W
07CA: MOVWF 2E
07CB: MOVF 78,W
07CC: MOVWF 2D
07CD: MOVF 77,W
07CE: MOVWF 2C
07CF: CLRF 33
07D0: MOVLW FF
07D1: MOVWF 32
07D2: MOVLW 7F
07D3: MOVWF 31
07D4: MOVLW 8E
07D5: MOVWF 30
07D6: CALL 2CB
07D7: CLRF 37
07D8: CLRF 36
07D9: MOVLW 7A
07DA: MOVWF 35
07DB: MOVLW 85
07DC: MOVWF 34
07DD: MOVF 7A,W
07DE: MOVWF 3B
07DF: MOVF 79,W
07E0: MOVWF 3A
07E1: MOVF 78,W
07E2: MOVWF 39
07E3: MOVF 77,W
07E4: MOVWF 38
07E5: CALL 395
07E6: BCF 03.1
07E7: CLRF 2B
07E8: CLRF 2A
07E9: MOVLW C0
07EA: MOVWF 29
07EB: MOVLW 81
07EC: MOVWF 28
07ED: MOVF 7A,W
07EE: MOVWF 2F
07EF: MOVF 79,W
07F0: MOVWF 2E
07F1: MOVF 78,W
07F2: MOVWF 2D
07F3: MOVF 77,W
07F4: MOVWF 2C
07F5: CALL 40A
0779: MOVF 26,W
077A: MOVWF 28
077B: MOVF 25,W
077C: MOVWF 27
077D: CALL 26E
077E: MOVF 77,W
077F: MOVWF 27
0780: MOVF 78,W
0781: MOVWF 28
0782: MOVF 79,W
0783: MOVWF 29
0784: MOVF 7A,W
0785: MOVWF 2A
0786: MOVWF 2E
0787: MOVF 79,W
0788: MOVWF 2D
0789: MOVF 78,W
078A: MOVWF 2C
078B: MOVF 77,W
078C: MOVWF 2B
078D: CLRF 32
078E: MOVLW FF
078F: MOVWF 31
0790: MOVLW 7F
0791: MOVWF 30
0792: MOVLW 8E
0793: MOVWF 2F
0794: CALL 28B
0795: CLRF 36
0796: CLRF 35
0797: MOVLW 7A
0798: MOVWF 34
0799: MOVLW 85
079A: MOVWF 33
079B: MOVF 7A,W
079C: MOVWF 3A
079D: MOVF 79,W
079E: MOVWF 39
079F: MOVF 78,W
07A0: MOVWF 38
07A1: MOVF 77,W
07A2: MOVWF 37
07A3: CALL 355
07A4: BCF 03.1
07A5: CLRF 2A
07A6: CLRF 29
07A7: MOVLW C0
07A8: MOVWF 28
07A9: MOVLW 81
07AA: MOVWF 27
07AB: MOVF 7A,W
07AC: MOVWF 2E
07AD: MOVF 79,W
07AE: MOVWF 2D
07AF: MOVF 78,W
07B0: MOVWF 2C
07B1: MOVF 77,W
07B2: MOVWF 2B
07B3: CALL 3CA
.................... }
07F6: BSF 0A.3
07F7: BCF 0A.4
07F8: GOTO 103 (RETURN)
07B4: BSF 0A.3
07B5: BCF 0A.4
07B6: GOTO 119 (RETURN)
....................
....................
....................
....................
....................
.................... void main()
.................... {
*
0030: DATA 00,00
0036: DATA 00,00
*
0800: CLRF 04
0801: BCF 03.7
1036,7 → 948,7
0819: CLRF 09
*
081D: CLRF 21
.................... unsigned int8 i=0, sht_config;
.................... unsigned int8 i=0;
....................
.................... setup_adc_ports(NO_ANALOGS|VSS_VDD);
081E: BSF 03.5
1119,7 → 1031,7
.................... SHT25_soft_reset();
0863: BCF 0A.3
0864: BCF 03.6
0865: GOTO 07B
0865: GOTO 081
0866: BSF 0A.3
.................... printf("SHT25 humidity and temperature sensor example \r\n",);
0867: MOVLW 04
1129,238 → 1041,260
086B: MOVWF 0F
086C: BCF 0A.3
086D: BCF 03.6
086E: GOTO 0D5
086E: GOTO 0DB
086F: BSF 0A.3
.................... delay_ms (500);
0870: MOVLW 02
0871: MOVWF 23
0871: MOVWF 22
0872: MOVLW FA
0873: MOVWF 28
0873: MOVWF 27
0874: BCF 0A.3
0875: CALL 11D
0875: CALL 123
0876: BSF 0A.3
0877: DECFSZ 23,F
0877: DECFSZ 22,F
0878: GOTO 072
....................
.................... while(TRUE)
.................... {
.................... if (i<10) sht_config = SHT25_RH12_T14 | SHT25_HEATER_OFF; // loop alters on chip heater on and off to check correct function
.................... if (i<10)
0879: MOVF 21,W
087A: SUBLW 09
087B: BTFSS 03.0
087C: GOTO 07F
087C: GOTO 0A6
.................... printf("setup: %X \r\n",SHT25_setup(SHT25_RH12_T14 | SHT25_HEATER_OFF));
087D: CLRF 22
087E: BCF 0A.3
087F: CALL 17C
0880: BSF 0A.3
0881: MOVF 78,W
0882: MOVWF 22
0883: MOVLW 1D
0884: BSF 03.6
0885: MOVWF 0D
0886: MOVLW 00
0887: MOVWF 0F
0888: BCF 03.0
0889: MOVLW 07
088A: BCF 03.6
088B: MOVWF 26
088C: BCF 0A.3
088D: CALL 1FE
088E: BSF 0A.3
088F: MOVF 22,W
0890: MOVWF 23
0891: MOVLW 37
0892: MOVWF 24
0893: BCF 0A.3
0894: CALL 24D
0895: BSF 0A.3
0896: MOVLW 20
0897: MOVWF 33
0898: BCF 0A.3
0899: CALL 0B9
089A: BSF 0A.3
089B: MOVLW 0D
089C: MOVWF 33
089D: BCF 0A.3
089E: CALL 0B9
089F: BSF 0A.3
08A0: MOVLW 0A
08A1: MOVWF 33
08A2: BCF 0A.3
08A3: CALL 0B9
08A4: BSF 0A.3
.................... else
087E: GOTO 085
08A5: GOTO 0D0
.................... {
.................... sht_config = SHT25_RH12_T14 | SHT25_HEATER_ON;
087F: MOVLW 04
0880: MOVWF 22
.................... if (i > 20) i = 0;
0881: MOVF 21,W
0882: SUBLW 14
0883: BTFSS 03.0
0884: CLRF 21
.................... }
.................... printf("setup: %X %X \r\n",SHT25_setup(sht_config),sht_config);
0885: MOVF 22,W
0886: MOVWF 23
0887: BCF 0A.3
0888: GOTO 176
0889: BSF 0A.3
088A: MOVF 78,W
088B: MOVWF 23
088C: MOVLW 1D
088D: BSF 03.6
088E: MOVWF 0D
088F: MOVLW 00
0890: MOVWF 0F
0891: BCF 03.0
0892: MOVLW 07
0893: BCF 03.6
0894: MOVWF 27
0895: BCF 0A.3
0896: CALL 23E
0897: BSF 0A.3
0898: MOVF 23,W
0899: MOVWF 24
089A: MOVLW 37
089B: MOVWF 25
089C: BCF 0A.3
089D: CALL 28D
089E: BSF 0A.3
089F: MOVLW 20
08A0: MOVWF 34
08A1: BCF 0A.3
08A2: CALL 0B3
08A3: BSF 0A.3
08A4: MOVF 22,W
08A5: MOVWF 24
08A6: MOVLW 37
08A7: MOVWF 25
.................... printf("setup: %X \r\n",SHT25_setup(SHT25_RH12_T14 | SHT25_HEATER_ON));
08A6: MOVLW 04
08A7: MOVWF 22
08A8: BCF 0A.3
08A9: CALL 28D
08A9: CALL 17C
08AA: BSF 0A.3
08AB: MOVLW 20
08AC: MOVWF 34
08AD: BCF 0A.3
08AE: CALL 0B3
08AF: BSF 0A.3
08B0: MOVLW 0D
08B1: MOVWF 34
08B2: BCF 0A.3
08B3: CALL 0B3
08B4: BSF 0A.3
08B5: MOVLW 0A
08B6: MOVWF 34
08B7: BCF 0A.3
08B8: CALL 0B3
08B9: BSF 0A.3
08AB: MOVF 78,W
08AC: MOVWF 22
08AD: MOVLW 24
08AE: BSF 03.6
08AF: MOVWF 0D
08B0: MOVLW 00
08B1: MOVWF 0F
08B2: BCF 03.0
08B3: MOVLW 07
08B4: BCF 03.6
08B5: MOVWF 26
08B6: BCF 0A.3
08B7: CALL 1FE
08B8: BSF 0A.3
08B9: MOVF 22,W
08BA: MOVWF 23
08BB: MOVLW 37
08BC: MOVWF 24
08BD: BCF 0A.3
08BE: CALL 24D
08BF: BSF 0A.3
08C0: MOVLW 20
08C1: MOVWF 33
08C2: BCF 0A.3
08C3: CALL 0B9
08C4: BSF 0A.3
08C5: MOVLW 0D
08C6: MOVWF 33
08C7: BCF 0A.3
08C8: CALL 0B9
08C9: BSF 0A.3
08CA: MOVLW 0A
08CB: MOVWF 33
08CC: BCF 0A.3
08CD: CALL 0B9
08CE: BSF 0A.3
.................... i = 0;
08CF: CLRF 21
.................... }
.................... delay_ms (500);
08BA: MOVLW 02
08BB: MOVWF 23
08BC: MOVLW FA
08BD: MOVWF 28
08BE: BCF 0A.3
08BF: CALL 11D
08C0: BSF 0A.3
08C1: DECFSZ 23,F
08C2: GOTO 0BC
08D0: MOVLW 02
08D1: MOVWF 22
08D2: MOVLW FA
08D3: MOVWF 27
08D4: BCF 0A.3
08D5: CALL 123
08D6: BSF 0A.3
08D7: DECFSZ 22,F
08D8: GOTO 0D2
.................... printf("Temp: %f \r\n",SHT25_get_temp());
08C3: BCF 0A.3
08C4: GOTO 54B
08C5: BSF 0A.3
08C6: MOVF 77,W
08C7: MOVWF 23
08C8: MOVF 78,W
08C9: MOVWF 24
08CA: MOVF 79,W
08CB: MOVWF 25
08CC: MOVF 7A,W
08CD: MOVWF 26
08CE: MOVLW 25
08CF: BSF 03.6
08D0: MOVWF 0D
08D1: MOVLW 00
08D2: MOVWF 0F
08D3: BCF 03.0
08D4: MOVLW 06
08D5: BCF 03.6
08D6: MOVWF 27
08D7: BCF 0A.3
08D8: CALL 23E
08D9: BSF 0A.3
08DA: MOVLW 89
08DB: MOVWF 04
08DC: MOVF 26,W
08DD: MOVWF 2A
08DE: MOVF 25,W
08DF: MOVWF 29
08E0: MOVF 24,W
08E1: MOVWF 28
08E2: MOVF 23,W
08E3: MOVWF 27
08E4: MOVLW 02
08E5: MOVWF 2B
08E6: BCF 0A.3
08E7: CALL 65C
08E8: BSF 0A.3
08E9: MOVLW 20
08EA: MOVWF 34
08EB: BCF 0A.3
08EC: CALL 0B3
08ED: BSF 0A.3
08EE: MOVLW 0D
08EF: MOVWF 34
08F0: BCF 0A.3
08F1: CALL 0B3
08F2: BSF 0A.3
08F3: MOVLW 0A
08F4: MOVWF 34
08F5: BCF 0A.3
08F6: CALL 0B3
08F7: BSF 0A.3
.................... delay_ms (500);
08F8: MOVLW 02
08F9: MOVWF 23
08FA: MOVLW FA
08FB: MOVWF 28
08D9: BCF 0A.3
08DA: GOTO 50B
08DB: BSF 0A.3
08DC: MOVF 77,W
08DD: MOVWF 22
08DE: MOVF 78,W
08DF: MOVWF 23
08E0: MOVF 79,W
08E1: MOVWF 24
08E2: MOVF 7A,W
08E3: MOVWF 25
08E4: MOVLW 2B
08E5: BSF 03.6
08E6: MOVWF 0D
08E7: MOVLW 00
08E8: MOVWF 0F
08E9: BCF 03.0
08EA: MOVLW 06
08EB: BCF 03.6
08EC: MOVWF 26
08ED: BCF 0A.3
08EE: CALL 1FE
08EF: BSF 0A.3
08F0: MOVLW 89
08F1: MOVWF 04
08F2: MOVF 25,W
08F3: MOVWF 29
08F4: MOVF 24,W
08F5: MOVWF 28
08F6: MOVF 23,W
08F7: MOVWF 27
08F8: MOVF 22,W
08F9: MOVWF 26
08FA: MOVLW 02
08FB: MOVWF 2A
08FC: BCF 0A.3
08FD: CALL 11D
08FD: CALL 61A
08FE: BSF 0A.3
08FF: DECFSZ 23,F
0900: GOTO 0FA
.................... printf("Hum: %f \r\n",SHT25_get_hum());
08FF: MOVLW 20
0900: MOVWF 33
0901: BCF 0A.3
0902: GOTO 743
0902: CALL 0B9
0903: BSF 0A.3
0904: MOVF 77,W
0905: MOVWF 23
0906: MOVF 78,W
0907: MOVWF 24
0908: MOVF 79,W
0909: MOVWF 25
090A: MOVF 7A,W
090B: MOVWF 26
090C: MOVLW 2B
090D: BSF 03.6
090E: MOVWF 0D
090F: MOVLW 00
0910: MOVWF 0F
0911: BCF 03.0
0912: MOVLW 05
0913: BCF 03.6
0914: MOVWF 27
0915: BCF 0A.3
0916: CALL 23E
0917: BSF 0A.3
0918: MOVLW 89
0919: MOVWF 04
091A: MOVF 26,W
091B: MOVWF 2A
091C: MOVF 25,W
091D: MOVWF 29
091E: MOVF 24,W
091F: MOVWF 28
0920: MOVF 23,W
0921: MOVWF 27
0922: MOVLW 02
0923: MOVWF 2B
0924: BCF 0A.3
0925: CALL 65C
0926: BSF 0A.3
0927: MOVLW 20
0928: MOVWF 34
0929: BCF 0A.3
092A: CALL 0B3
092B: BSF 0A.3
092C: MOVLW 0D
092D: MOVWF 34
092E: BCF 0A.3
092F: CALL 0B3
0930: BSF 0A.3
0931: MOVLW 0A
0932: MOVWF 34
0933: BCF 0A.3
0934: CALL 0B3
0935: BSF 0A.3
.................... delay_ms (1000);
0936: MOVLW 04
0937: MOVWF 23
0938: MOVLW FA
0939: MOVWF 28
0904: MOVLW 0D
0905: MOVWF 33
0906: BCF 0A.3
0907: CALL 0B9
0908: BSF 0A.3
0909: MOVLW 0A
090A: MOVWF 33
090B: BCF 0A.3
090C: CALL 0B9
090D: BSF 0A.3
.................... delay_ms (500);
090E: MOVLW 02
090F: MOVWF 22
0910: MOVLW FA
0911: MOVWF 27
0912: BCF 0A.3
0913: CALL 123
0914: BSF 0A.3
0915: DECFSZ 22,F
0916: GOTO 110
.................... printf("Hum: %f \r\n",SHT25_get_hum());
0917: BCF 0A.3
0918: GOTO 701
0919: BSF 0A.3
091A: MOVF 77,W
091B: MOVWF 22
091C: MOVF 78,W
091D: MOVWF 23
091E: MOVF 79,W
091F: MOVWF 24
0920: MOVF 7A,W
0921: MOVWF 25
0922: MOVLW 31
0923: BSF 03.6
0924: MOVWF 0D
0925: MOVLW 00
0926: MOVWF 0F
0927: BCF 03.0
0928: MOVLW 05
0929: BCF 03.6
092A: MOVWF 26
092B: BCF 0A.3
092C: CALL 1FE
092D: BSF 0A.3
092E: MOVLW 89
092F: MOVWF 04
0930: MOVF 25,W
0931: MOVWF 29
0932: MOVF 24,W
0933: MOVWF 28
0934: MOVF 23,W
0935: MOVWF 27
0936: MOVF 22,W
0937: MOVWF 26
0938: MOVLW 02
0939: MOVWF 2A
093A: BCF 0A.3
093B: CALL 11D
093B: CALL 61A
093C: BSF 0A.3
093D: DECFSZ 23,F
093E: GOTO 138
093D: MOVLW 20
093E: MOVWF 33
093F: BCF 0A.3
0940: CALL 0B9
0941: BSF 0A.3
0942: MOVLW 0D
0943: MOVWF 33
0944: BCF 0A.3
0945: CALL 0B9
0946: BSF 0A.3
0947: MOVLW 0A
0948: MOVWF 33
0949: BCF 0A.3
094A: CALL 0B9
094B: BSF 0A.3
.................... delay_ms (1000);
094C: MOVLW 04
094D: MOVWF 22
094E: MOVLW FA
094F: MOVWF 27
0950: BCF 0A.3
0951: CALL 123
0952: BSF 0A.3
0953: DECFSZ 22,F
0954: GOTO 14E
.................... i++;
093F: INCF 21,F
0955: INCF 21,F
.................... }
0940: GOTO 079
0956: GOTO 079
.................... }
....................
0941: SLEEP
0957: SLEEP
 
Configuration Fuses:
Word 1: 2CF4 INTRC_IO NOWDT NOPUT MCLR NOPROTECT NOCPD NOBROWNOUT IESO FCMEN NOLVP NODEBUG
/Modules/Sensors/SHT25V01A/SW/PIC16F887/main.pjt
17,14 → 17,12
0=0000 %S 0 0 796 451 3 0
[Opened Files]
1=main.c
2=main.h
2=
3=C:\Program Files\PICC\devices\16F887.h
4=SHT25.c
5=SHT25.h
6=
4=
[Target Data]
OptionString=-p +FM
FileList=D:\MLAB\Modules\Sensors\SHT25V01A\SW\PIC16F887\main.c
FileList=Z:\home\kaklik\MLAB\Modules\Sensors\SHT25V01A\SW\PIC16F887\main.c
[Units]
Count=1
1=main (main)
/Modules/Sensors/SHT25V01A/SW/PIC16F887/main.sta
1,24 → 1,22
 
ROM used: 2363 (29%)
2370 (29%) including unused fragments
ROM used: 2319 (28%)
2392 (29%) including unused fragments
 
4 Average locations per line
31 Average locations per statement
34 Average locations per statement
 
RAM used: 12 (3%) at main() level
38 (10%) worst case
RAM used: 11 (3%) at main() level
37 (10%) worst case
 
Stack used: 2 worst case (out of 8 total available)
 
Lines Stmts % Files
----- ----- --- -----
43 26 34 main.c
133 68 100 main.c
23 0 0 main.h
423 0 0 C:\Program Files\PICC\devices\16F887.h
14 0 0 SHT25.h
92 51 66 SHT25.c
423 0 0 C:\Program Files (x86)\PICC\devices\16F887.h
----- -----
595 77 Total
579 68 Total
 
Page ROM % RAM Vol Diff Functions:
---- --- --- --- --- ---- ----------
26,20 → 24,21
0 69 3 3 @I2C_READ_1
0 74 3 1 @I2C_WRITE_1
0 34 1 1 @PUTCHAR_1_
0 56 2 0 55 1.1 SHT25_soft_reset
0 200 8 3 550 4.0 SHT25_setup
0 207 9 9 572 6.0 SHT25_get_temp
0 56 2 0 68 0.6 SHT25_soft_reset
0 130 6 3 349 4.0 SHT25_setup
0 205 9 9 572 6.0 SHT25_get_temp
0 29 1 2 @ITOF
0 202 9 14 @DIVFF
0 117 5 13 @MULFF
0 321 14 16 @ADDFF
0 182 8 9 552 6.0 SHT25_get_hum
1 322 14 6 831 5.7 MAIN
0 25 1 0 @const105
1 344 15 5 763 5.2 MAIN
0 25 1 0 @const104
0 72 3 3 @PSTRINGC7_69
0 8 0 0 @const107
0 7 0 0 @const106
0 79 3 4 @PSTRINGCN7_69
0 33 1 2 @PRINTF_X_69
0 7 0 0 @const112
0 6 0 0 @const113
Inline 5 @FTOSD
0 66 3 13 @DIV3232
48,21 → 47,21
 
Program metrics:
Functions 5
Statements 77
Comments 124
Volume (V) 3540
Difficilty (D) 21.1
Effort to implement (E) 74648
Time to implement (T) 1 hours, 9 minutes
Statements 68
Comments 104
Volume (V) 3203
Difficilty (D) 19.6
Effort to implement (E) 62707
Time to implement (T) 58 minutes
Est Delivered Bugs (B) 1
Cyclomatic Complexity 2
Maintainability (MI) 142
Cyclomatic Complexity 1
Maintainability (MI) 130
 
Segment Used Free
----------- ---- ----
00000-00003 4 0
00004-007FF 2037 7
00800-00FFF 322 1726
00004-007FF 1971 73
00800-00FFF 344 1704
01000-017FF 0 2048
01800-01FFF 0 2048
 
/Modules/Sensors/SHT25V01A/SW/PIC16F887/main.sym
8,90 → 8,89
01C CCP_2_HIGH
020 @TRIS_C
021 MAIN.i
022 MAIN.sht_config
023 SHT25_setup.setup_reg
023 SHT25_get_temp.MSB
023 SHT25_get_hum.MSB
023 MAIN.@SCRATCH1
023 @PSTRINGC7_69.@SCRATCH1
024 SHT25_get_hum.LSB
022 SHT25_setup.setup_reg
022 SHT25_get_hum.MSB
022 SHT25_get_temp.MSB
022 MAIN.@SCRATCH1
022 @PSTRINGC7_69.@SCRATCH1
023 @PRINTF_X_69.P1
023 SHT25_setup.reg
023 SHT25_get_hum.LSB
023 SHT25_get_temp.LSB
023 MAIN.@SCRATCH2
023 @PSTRINGC7_69.@SCRATCH2
024 SHT25_get_hum.Check
024 SHT25_get_temp.Check
024 @PRINTF_X_69.P1
024 SHT25_setup.reg
024 SHT25_get_temp.LSB
024 MAIN.@SCRATCH2
024 @PSTRINGC7_69.@SCRATCH2
025 @PRINTF_X_69.P1
025 SHT25_get_temp.Check
025 SHT25_get_hum.Check
025 SHT25_setup.@SCRATCH1
025 MAIN.@SCRATCH3
025 @PSTRINGC7_69.@SCRATCH3
026-027 SHT25_get_hum.data
026-027 SHT25_get_temp.data
026 MAIN.@SCRATCH4
027-02A @PRINTF_L32D_69FPFPF.P1
027 @PSTRINGCN7_69.P2
028 @I2C_WRITE_1.P1
028-029 @ITOF.P2
028-02B @ADDFF.P3
028 @delay_ms1.P4
028 @I2C_READ_1.P5
028 SHT25_get_temp.@SCRATCH1
028 SHT25_get_hum.@SCRATCH1
028 @PSTRINGCN7_69.@SCRATCH1
029 @I2C_READ_1.@SCRATCH1
029 SHT25_get_temp.@SCRATCH2
029 SHT25_get_hum.@SCRATCH2
029 @PSTRINGCN7_69.@SCRATCH2
02A @I2C_READ_1.@SCRATCH2
02A SHT25_get_temp.@SCRATCH3
02A SHT25_get_hum.@SCRATCH3
02A @PSTRINGCN7_69.@SCRATCH3
02B @PRINTF_L32D_69FPFPF.P1
02B SHT25_get_temp.@SCRATCH4
02B SHT25_get_hum.@SCRATCH4
02C-02F @DIVFF.P1
02C-02F @ADDFF.P2
02C @PRINTF_L32D_69FPFPF.@SCRATCH1
02D @PRINTF_L32D_69FPFPF.@SCRATCH2
02E @PRINTF_L32D_69FPFPF.@SCRATCH3
02F @PRINTF_L32D_69FPFPF.@SCRATCH4
030-033 @DIVFF.P1
030 @ADDFF.@SCRATCH1
030 @PRINTF_L32D_69FPFPF.@SCRATCH5
031 @ADDFF.@SCRATCH2
031 @PRINTF_L32D_69FPFPF.@SCRATCH6
032 @ADDFF.@SCRATCH3
032 @PRINTF_L32D_69FPFPF.@SCRATCH7
033 @ADDFF.@SCRATCH4
033 @PRINTF_L32D_69FPFPF.@SCRATCH8
034-037 @FTOSD.P1
034-037 @DIV3232.P2
034-037 @MULFF.P3
034 @PUTCHAR_1_.P4
034 @DIVFF.@SCRATCH1
034 @ADDFF.@SCRATCH5
035 @DIVFF.@SCRATCH2
035 @ADDFF.@SCRATCH6
036 @DIVFF.@SCRATCH3
036 @ADDFF.@SCRATCH7
037 @DIVFF.@SCRATCH4
037 @ADDFF.@SCRATCH8
038-03B @MULFF.P1
038-03B @DIV3232.P2
038 @DIVFF.@SCRATCH5
038 @FTOSD.@SCRATCH1
039 @DIVFF.@SCRATCH6
03C @MULFF.@SCRATCH1
03C @DIV3232.@SCRATCH1
03D @MULFF.@SCRATCH2
03D @DIV3232.@SCRATCH2
03E @MULFF.@SCRATCH3
03E @DIV3232.@SCRATCH3
03F @MULFF.@SCRATCH4
03F @DIV3232.@SCRATCH4
040 @MULFF.@SCRATCH5
040 @DIV3232.@SCRATCH5
024 SHT25_setup.@SCRATCH1
024 MAIN.@SCRATCH3
024 @PSTRINGC7_69.@SCRATCH3
025-026 SHT25_get_temp.data
025-026 SHT25_get_hum.data
025 MAIN.@SCRATCH4
026 @PSTRINGCN7_69.P1
026-029 @PRINTF_L32D_69FPFPF.P2
027 @I2C_READ_1.P1
027 @I2C_WRITE_1.P2
027-02A @ADDFF.P3
027-028 @ITOF.P4
027 @delay_ms1.P5
027 SHT25_get_temp.@SCRATCH1
027 SHT25_get_hum.@SCRATCH1
027 @PSTRINGCN7_69.@SCRATCH1
028 @I2C_READ_1.@SCRATCH1
028 SHT25_get_temp.@SCRATCH2
028 SHT25_get_hum.@SCRATCH2
028 @PSTRINGCN7_69.@SCRATCH2
029 @I2C_READ_1.@SCRATCH2
029 SHT25_get_temp.@SCRATCH3
029 SHT25_get_hum.@SCRATCH3
029 @PSTRINGCN7_69.@SCRATCH3
02A @PRINTF_L32D_69FPFPF.P1
02A SHT25_get_temp.@SCRATCH4
02A SHT25_get_hum.@SCRATCH4
02B-02E @ADDFF.P1
02B-02E @DIVFF.P2
02B @PRINTF_L32D_69FPFPF.@SCRATCH1
02C @PRINTF_L32D_69FPFPF.@SCRATCH2
02D @PRINTF_L32D_69FPFPF.@SCRATCH3
02E @PRINTF_L32D_69FPFPF.@SCRATCH4
02F-032 @DIVFF.P1
02F @ADDFF.@SCRATCH1
02F @PRINTF_L32D_69FPFPF.@SCRATCH5
030 @ADDFF.@SCRATCH2
030 @PRINTF_L32D_69FPFPF.@SCRATCH6
031 @ADDFF.@SCRATCH3
031 @PRINTF_L32D_69FPFPF.@SCRATCH7
032 @ADDFF.@SCRATCH4
032 @PRINTF_L32D_69FPFPF.@SCRATCH8
033-036 @DIV3232.P1
033-036 @FTOSD.P2
033-036 @MULFF.P3
033 @PUTCHAR_1_.P4
033 @DIVFF.@SCRATCH1
033 @ADDFF.@SCRATCH5
034 @DIVFF.@SCRATCH2
034 @ADDFF.@SCRATCH6
035 @DIVFF.@SCRATCH3
035 @ADDFF.@SCRATCH7
036 @DIVFF.@SCRATCH4
036 @ADDFF.@SCRATCH8
037-03A @MULFF.P1
037-03A @DIV3232.P2
037 @DIVFF.@SCRATCH5
037 @FTOSD.@SCRATCH1
038 @DIVFF.@SCRATCH6
03B @MULFF.@SCRATCH1
03B @DIV3232.@SCRATCH1
03C @MULFF.@SCRATCH2
03C @DIV3232.@SCRATCH2
03D @MULFF.@SCRATCH3
03D @DIV3232.@SCRATCH3
03E @MULFF.@SCRATCH4
03E @DIV3232.@SCRATCH4
03F @MULFF.@SCRATCH5
03F @DIV3232.@SCRATCH5
077 @SCRATCH
078 @SCRATCH
078 _RETURN_
103,29 → 102,30
10D-10E @WRITE_PROGRAM_MEMORY8.P2
 
ROM Allocation:
011D @delay_ms1
0131 @I2C_READ_1
0031 @I2C_WRITE_1
00B3 @PUTCHAR_1_
007B SHT25_soft_reset
0176 SHT25_setup
054B SHT25_get_temp
02AE @ITOF
02CB @DIVFF
0395 @MULFF
040A @ADDFF
0743 SHT25_get_hum
0123 @delay_ms1
0137 @I2C_READ_1
0037 @I2C_WRITE_1
00B9 @PUTCHAR_1_
0081 SHT25_soft_reset
017C SHT25_setup
050B SHT25_get_temp
026E @ITOF
028B @DIVFF
0355 @MULFF
03CA @ADDFF
0701 SHT25_get_hum
0800 MAIN
0004 @const105
00D5 @PSTRINGC7_69
001D @const107
023E @PSTRINGCN7_69
028D @PRINTF_X_69
0025 @const113
0683 @FTOSD
061A @DIV3232
065C @PRINTF_L32D_69FPFPF
002B @const122
0004 @const104
00DB @PSTRINGC7_69
001D @const106
01FE @PSTRINGCN7_69
024D @PRINTF_X_69
0024 @const112
002B @const113
0641 @FTOSD
05D8 @DIV3232
061A @PRINTF_L32D_69FPFPF
0031 @const122
0800 @cinit
 
 
134,17 → 134,15
User Memory space:
 
Project Directory:
D:\MLAB\Modules\Sensors\SHT25V01A\SW\PIC16F887\
Z:\home\kaklik\MLAB\Modules\Sensors\SHT25V01A\SW\PIC16F887\
 
Project Files:
main.c
main.h
C:\Program Files\PICC\devices\16F887.h
SHT25.h
SHT25.c
C:\Program Files (x86)\PICC\devices\16F887.h
 
Units:
D:\MLAB\Modules\Sensors\SHT25V01A\SW\PIC16F887\main (main)
Z:\home\kaklik\MLAB\Modules\Sensors\SHT25V01A\SW\PIC16F887\main (main)
 
Compiler Settings:
Processor: PIC16F887
/Modules/Sensors/SHT25V01A/SW/PIC16F887/main.tre
1,5 → 1,5
ÀÄmain
ÀÄMAIN 1/322 Ram=6
ÀÄMAIN 1/344 Ram=5
ÃÄ??0??
ÃÄSHT25_soft_reset 0/56 Ram=0
³ ÃÄ@I2C_WRITE_1 0/74 Ram=1
8,7 → 8,7
³ ÃÄ@PUTCHAR_1_ 0/34 Ram=1
³ ÀÄ@PUTCHAR_1_ 0/34 Ram=1
ÃÄ@delay_ms1 0/20 Ram=1
ÃÄSHT25_setup 0/200 Ram=3
ÃÄSHT25_setup 0/130 Ram=3
³ ÃÄ@I2C_WRITE_1 0/74 Ram=1
³ ÃÄ@I2C_WRITE_1 0/74 Ram=1
³ ÃÄ@I2C_WRITE_1 0/74 Ram=1
15,12 → 15,24
³ ÃÄ@I2C_READ_1 0/69 Ram=3
³ ÃÄ@I2C_WRITE_1 0/74 Ram=1
³ ÃÄ@I2C_WRITE_1 0/74 Ram=1
³ ÀÄ@I2C_WRITE_1 0/74 Ram=1
ÃÄ@PSTRINGCN7_69 0/79 Ram=4
³ ÃÄ@PUTCHAR_1_ 0/34 Ram=1
³ ÀÄ@PUTCHAR_1_ 0/34 Ram=1
ÃÄ@PRINTF_X_69 0/33 Ram=2
³ ÃÄ@PUTCHAR_1_ 0/34 Ram=1
³ ÀÄ@PUTCHAR_1_ 0/34 Ram=1
ÃÄ@PUTCHAR_1_ 0/34 Ram=1
ÃÄ@PUTCHAR_1_ 0/34 Ram=1
ÃÄ@PUTCHAR_1_ 0/34 Ram=1
ÃÄSHT25_setup 0/130 Ram=3
³ ÃÄ@I2C_WRITE_1 0/74 Ram=1
³ ÃÄ@delay_ms1 0/20 Ram=1
³ ÃÄ@I2C_WRITE_1 0/74 Ram=1
³ ÃÄ@I2C_WRITE_1 0/74 Ram=1
³ ÃÄ@I2C_READ_1 0/69 Ram=3
³ ÃÄ@I2C_WRITE_1 0/74 Ram=1
³ ÀÄ@I2C_READ_1 0/69 Ram=3
³ ÃÄ@I2C_WRITE_1 0/74 Ram=1
³ ÀÄ@I2C_WRITE_1 0/74 Ram=1
ÃÄ@PSTRINGCN7_69 0/79 Ram=4
³ ÃÄ@PUTCHAR_1_ 0/34 Ram=1
³ ÀÄ@PUTCHAR_1_ 0/34 Ram=1
28,14 → 40,10
³ ÃÄ@PUTCHAR_1_ 0/34 Ram=1
³ ÀÄ@PUTCHAR_1_ 0/34 Ram=1
ÃÄ@PUTCHAR_1_ 0/34 Ram=1
ÃÄ@PRINTF_X_69 0/33 Ram=2
³ ÃÄ@PUTCHAR_1_ 0/34 Ram=1
³ ÀÄ@PUTCHAR_1_ 0/34 Ram=1
ÃÄ@PUTCHAR_1_ 0/34 Ram=1
ÃÄ@PUTCHAR_1_ 0/34 Ram=1
ÃÄ@PUTCHAR_1_ 0/34 Ram=1
ÃÄ@delay_ms1 0/20 Ram=1
ÃÄSHT25_get_temp 0/207 Ram=9
ÃÄSHT25_get_temp 0/205 Ram=9
³ ÃÄ@I2C_WRITE_1 0/74 Ram=1
³ ÃÄ@I2C_WRITE_1 0/74 Ram=1
³ ÃÄ@delay_ms1 0/20 Ram=1