Òåìïåðàòóðíûé ìîäóëü ðàñøèðåíèÿ ÏËÊ: Haiwell H08RC, ñî ñêëàäà
Ìîäåëü:
H08RC
Öåíà ñ ÍÄÑ:
217
USD
Íàëè÷èå:
ïîä çàêàç
 êîðçèíó
Èíòåðôåéñû:
1xRS485
Ðàçðÿäíîñòü ÖÀÏ:
16 áèò
Òèï âõîäà:
8 òåðìîñîïðîòèâëåíèé
- Òèïû òåðìîñîïðîòèâëåíèé: PT100, PT1000, Cu50, Cu100;
- Íàëè÷èå èíòåðôåéñà RS-485 ïîçâîëÿåò èñïîëüçîâàòü ìîäóëü êàê óäàëåííûé ìîäóëü ââîäà-âûâîäà ( ñ óïðàâëåíèåì ïî Mîdbus RTU )
- Óïðàâëÿòü ìîäóëÿìè Haiwell ïî Modbus RTU ñïîñîáíî ëþáîå óñòðîéñòâî,ïîääåðæèâàþùåå äàííûé ïðîòîêîë ( íå òîëüêî êîíòðîëëåð Haiwell )
Õàðàêòåðèñòèêè H08RC
Õàðàêòåðèñòèêà | Çíà÷åíèå |
---|---|
Âõîäû (AI) | 8 òåðìîñîïðîòèâëåíèé |
Ðàçðÿäíîñòü ÖÀÏ | 16 áèò |
Èíòåðôåéñû | 1xRS485 |
Òèïû òåðìîñîïðîòèâëåíèé | Pt100 | Pt1000 | Cu100 | Cu50 |
Ðàçðåøåíèå | 0.1℃ | |||
Âõîäíîå ñîïðîòèâëåíèå | 6 MÎì | |||
Âðåìÿ îòêëèêà | 560 ìñ äëÿ 4 êàíàëîâ, 880 ìñ äëÿ 8 êàíàëîâ | |||
Ðàçðåøåíèå | 16 áèò | |||
Òî÷íîñòü | 0.1% îò äèàïàçîíà | |||
Èçîëÿöèÿ | îïòîèçîëÿöèÿ àíàëîãîâîé ÷àñòè ( íåò èçîëÿöèè ìåæäó âõîäàìè) | |||
Ïîòðåáëåíèå | 24 VDC ±20%, 50 ìÀ(Ìàêñ) |
Õàðàêòåðèñòèêè ïèòàíèÿ
Õàðàêòåðèñòèêà |
Çíà÷åíèå |
Íàïðÿæåíèå ïèòàíèÿ | DC24V -15%~+20% |
Ïîòðåáëåíèå | 1.8VA |
Èìïóëüñ ïî ïèòàíèþ | MAX 20A 1.5 ìñ @24 VDC |
Ïðîïàäàíèå ïèòàíèÿ | Íå áîëåå 10 ìñ |
Ïðåäîõðàíèòåëü | 2 A, 250 V |
Èçîëÿöèîííûé áàðüåð | íåò |
Çàùèòà ïèòàíèÿ | Ïåðåïîëþñîâêà, ïðåâûøåíèå íàïðÿæåíèÿ |
Òåõíè÷åñêèå óñëîâèÿ èñïîëüçîâàíèÿ
Õàðàêòåðèñòèêà |
Çíà÷åíèå |
Ðàçìåðû | 93*95*82 ìì |
Âåñ íåòòî (ãðàìì) | 353 |
Âåñ áðóòòî (ãðàìì) | 455 |
Òåìïåðàòóðà/Âëàæíîñòü |
Ðàáî÷àÿ òåìïåðàòóðà: 0 ~ + 55 °C; òåìïåðàòóðà õðàíåíèÿ: - 25 ~ + 70 °C è âëàæíîñòü: 5 ~ 95% RH, áåç êîíäåíñàòà |
Óñòîé÷èâîñòü ê âèáðàöèè |
10~57 Ãö 0.075mm, 57 Ãö ~ 150 Ãö óñêîðåíèå 1G,X, Y, Z òðè îñè 10 ðàç â êàæäîì íàïðàâëåíèè |
Óñòîé÷èâîñòü ê óäàðó |
15G, ïðîäîëæèòåëüíîñòüþ 11 ìñ, X, Y, Z òðè îñè 6 ðàç â êàæäîì íàïðàâëåíèè |
Ýëåêòðîìàãíèòíàÿ ñîâìåñòèìîñòü |
AC EFT: ± 2500V, surge: ± 2500V, DC EFT: ±2500V, surge: ±1000V |
Çàùèòà îò âûñîêîãî íàïðÿæåíèÿ |
Ìåæäó êëåììàìè AC PE 1500 VAC, 1 ìèí Ìåæäó êëåììàììè DC è PE 500 VAC, 1 ìèí |
Ñîïðîòèâëåíèå èçîëÿöèè |
Ìåæäó êëåììàìè AC and PE 500 VDC >=5M Ìåæäó ëþáûì âõîäîì âûõîäîì è PE 500 VDC |
Ãàáàðèòû
93*95*82 ìì
Ñõåìû H08RC
Ñõåìà ïîäêëþ÷åíèÿ êëåìì

Äèàãðàììà ïîäêëþ÷åíèÿ

Òàáëèöà ðåãèñòðîâ
CR Number | Function Declare |
H08RC | |
00H (Read only) | The low byte is the module code, and the high byte is the module version number. |
01H | Communication address |
02H | Communication protocol: The low 4-bit of the low bytes:0 - N,8,2 For RTU,1 - E,8,1 For RTU, 2 - O,8,1 For RTU,3 - N,7,2 For ASCII,4 - E,7,1 For ASCII,5 - O,7,1 For ASCII,6 - N,8, 1 For RTU |
The high 4-bit of the low bytes: 0 – 2400,1 – 4800,2 – 9600,3 – 19200,4 – 38400, 5 – 57600,6 - 115200 |
|
03H~06H | Extend module name |
07H~08H | Default IP address: 192.168.1.111 |
09~0AH (Read only) | Reserve |
0BH | High byte subnet mask(b3~b0,1 indicates 255,0 indicates 0 , for example, subnet mask 255.255.255.0, b3~b0=1110), low byte Reserved |
0CH~0EH (Read only) | Reserve |
0FH (Read only) | Error code: 0-Normal, 1-Illegally firmware identity, 2-Incomplete firmware, 3-System data access exception, 4-No external 24V power supply |
10H (Read only) | The input value of channel 1 |
11H (Read only) | The input value of channel 2 |
12H (Read only) | The input value of channel 3 |
13H (Read only) | The input value of channel 4 |
14H (Read only) | The input value of channel 5 |
15H (Read only) | The input value of channel 6 |
16H (Read only) | The input value of channel 7 |
17H (Read only) | The input value of channel 8 |
18H | The signal type of channel 1, note 3 |
19H | The signal type of channel 2, note 3 |
1AH | The signal type of channel 3, note 3 |
1BH | The signal type of channel 4, note 3 |
1CH | The signal type of channel 5, note 3 |
1DH | The signal type of channel 6, note 3 |
1EH | The signal type of channel 7, note 3 |
1FH | The signal type of channel 8, note 3 |
20H | Use the engineering value mark, note 6 |
21H | The lower limit in engineering value of channel 1 |
22H | The lower limit in engineering value of channel 2 |
23H | The lower limit in engineering value of channel 3 |
24H | The lower limit in engineering value of channel 4 |
25H | The lower limit in engineering value of channel 5 |
26H | The lower limit in engineering value of channel 6 |
27H | The lower limit in engineering value of channel 7 |
28H | The lower limit in engineering value of channel 8 |
29H | The upper limit in engineering value of channel 1 |
2AH | The upper limit in engineering value of channel 2 |
2BH | The upper limit in engineering value of channel 3 |
2CH | The upper limit in engineering value of channel 4 |
2DH | The upper limit in engineering value of channel 5 |
2EH | The upper limit in engineering value of channel 6 |
2FH | The upper limit in engineering value of channel 7 |
30H | The upper limit in engineering value of channel 8 |
31H | The sampling frequency of channel 1, note 1 |
32H | The sampling frequency of channel 2, note 1 |
33H | The sampling frequency of channel 3, note 1 |
34H | The sampling frequency of channel 4, note 1 |
35H | The sampling frequency of channel 5, note 1 |
36H | The sampling frequency of channel 6, note 1 |
37H | The sampling frequency of channel 7, note 1 |
38H | The sampling frequency of channel 8, note 1 |
39H | The zero point correction value of channel 1 |
3AH | The zero point correction value of channel 2 |
3BH | The zero point correction value of channel 3 |
3CH | The zero point correction value of channel 4 |
3DH | The zero point correction value of channel 5 |
3EH | The zero point correction value of channel 6 |
3FH | The zero point correction value of channel 7 |
40H | The zero point correction value of channel 8 |
41H (Read only) | Channel 1~8 input disconnection, note 5 |
42H~4FH (Read only) | Reserve |
Ôàéëû äëÿ ðàáîòû ñ H08RC
Íàçâàíèå | Äàòà îáíîâëåíèÿ | Ïðèìå÷àíèå | Ôàéë |
---|---|---|---|
Ðóêîâîäñòâî ïîëüçîâàòåëÿ òåìïåðàòóðíîãî ìîäóëÿ ðàñøèðåíèÿ (eng) | 13/06/2017 | [pdf - 2.4MB] | Ñêà÷àòü |
Ïðèëîæåíèå HaiwellHappy V2.2.4. äëÿ ïðîãðàììèðîâàíèÿ Haiwell PLC | 05/06/2017 | [àðõèâ rar - 27MB] | Ñêà÷àòü |
Êàòàëîã ïðîäóêöèè PLC Haiwell (eng) | 05/06/2017 | [pdf - 8.6MB] | Ñêà÷àòü |
Ðóêîâîäñòâî ïî ïðèëîæåíèþ HaiwellHappy äëÿ ïðîãðàììèðîâàíèÿ ÏËÊ (eng) | 20/04/2017 | [chm, 4.92MB] | Ñêà÷àòü |