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Параметры
Группа
1-Wire
Allen Bradley DF1
API - Запись нового значения в регистр
API - Получение данных для графика
API - Получение данных для события
API - Получение данных о локальном времени
API - Получение лога регистров
API - Получение текущих значений регистров
API - Список блоков панелей
API - Список графиков
API - Список изображений
API - Список панелей
API - Список регистров
API - Список словарей
API - Список соединений
API - Список трендов
BACnet IP
Broadlink SP3S
Delta DVP
ModBus ASCII
ModBus RTU
Modbus RTU в виде custom protocol
ModBus TCP
Siemens PPI
Siemens S7 Communication
Test
Troubleshooting - Решение типовых проблем при работе в WebHMI
Аварии
Аннотация - функциональные возможности WebHMI
Битовые операции
Быстродействие при обмене данными
ВНИМАНИЕ! ДАННАЯ ВЕРСИЯ ВИКИ УСТАРЕЛА - см. docs.webhmi.com.ua
Внутренние регистры WebHMI
Демо-приложение для Android
Дополнительные СОМ порты
Доступ по ftp
Журнал регистров
Интеграция в другие системы
Использование MultiWan
Исторические графики
Как проверить уровень приема сигнала у 3G модема
Календарь
Назначение и применение
Настройка виртуального UART
Настройка связи с CDC-модемами на примере модема Huawei E3531
Настройка сетевых соединений
Обновление версии прошивки
Описание API
Описание внешних разъемов
Оптимизация производительности
Особенности работы с некоторыми модемами
Отладка сложных скриптов
Первое включение
Перевод на англ 2
Поддерживаемые протоколы
Подключение 3G модем ZTE K3806 Киевстар
Подключение WebHMI к Level2
Подключение внешних устройств
Подключение к Allen-Bradley MicroLogix 1200
Подключение к Kиевстар на примере модема ZTE MF100
Подключение к People.net
Подключение к S7-1200
Подключение к МТС Коннект
Подключение к ОВЕН160
Подключение к ПЛК с Codesys
Подключение к интернету через 3G модем
Полезные программы
Полезные советы
Пользовательские графики и тренды (Аналитика)
Пользовательские протоколы
Построение графиков в Level2
Пример доступа к данным из C/C++
Пример доступа к данным из Excel
Пример протокола ModBus ASCII
Пример протокола ModBus TCP
Примеры подключения к разным устройствам
Просмотр регистров по запросу
Работа с контроллером холодильного оборудования Danfoss AK-CC 550
Работа с регистрами
Рецепты
Сброс настроек
Синхронизация времени
Системные настройки и сервис
Скрипты
События
Соединения
Сравнение карт SD
Тренды
Удалённый сервисный доступ
Формирование отчетов
Функции управления соединениями
Функция Modbus/TCP сервер
Шаблоны дешбордов
Экраны
Язык
aa - Afar
ab - Abkhazian
ace - Achinese
ady - Adyghe
ady-cyrl - адыгабзэ
aeb - Tunisian Arabic
aeb-arab - تونسي
aeb-latn - Tûnsî
af - Afrikaans
ak - Akan
aln - Gheg Albanian
am - Amharic
an - Aragonese
ang - Old English
anp - Angika
ar - Arabic
arc - Aramaic
arn - Mapuche
arq - Algerian Arabic
ary - Moroccan Arabic
arz - Egyptian Arabic
as - Assamese
ase - American Sign Language
ast - Asturian
av - Avaric
avk - Kotava
awa - Awadhi
ay - Aymara
az - Azerbaijani
azb - تۆرکجه
ba - Bashkir
bar - Bavarian
bbc - Batak Toba
bbc-latn - Batak Toba
bcc - Southern Balochi
bcl - Bikol Central
be - Belarusian
be-tarask - Belarusian (Taraškievica orthography)
bg - Bulgarian
bgn - Western Balochi
bho - Bhojpuri
bi - Bislama
bjn - Banjar
bm - Bambara
bn - Bengali
bo - Tibetan
bpy - Bishnupriya
bqi - Bakhtiari
br - Breton
brh - Brahui
bs - Bosnian
bto - Iriga Bicolano
bug - Buginese
bxr - буряад
ca - Catalan
cbk-zam - Chavacano de Zamboanga
cdo - Min Dong Chinese
ce - Chechen
ceb - Cebuano
ch - Chamorro
cho - Choctaw
chr - Cherokee
chy - Cheyenne
ckb - Central Kurdish
co - Corsican
cps - Capiznon
cr - Cree
crh - Crimean Turkish
crh-cyrl - Crimean Turkish (Cyrillic script)
crh-latn - Crimean Turkish (Latin script)
cs - Czech
csb - Kashubian
cu - Church Slavic
cv - Chuvash
cy - Welsh
da - Danish
de - German
de-at - Austrian German
de-ch - Swiss High German
de-formal - German (formal address)
diq - Zazaki
dsb - Lower Sorbian
dtp - Central Dusun
dty - डोटेली
dv - Divehi
dz - Dzongkha
ee - Ewe
egl - Emilian
el - Greek
eml - Emiliano-Romagnolo
en - English
en-ca - Canadian English
en-gb - British English
eo - Esperanto
es - Spanish
et - Estonian
eu - Basque
ext - Extremaduran
fa - Persian
ff - Fulah
fi - Finnish
fit - Tornedalen Finnish
fj - Fijian
fo - Faroese
fr - French
frc - Cajun French
frp - Arpitan
frr - Northern Frisian
fur - Friulian
fy - Western Frisian
ga - Irish
gag - Gagauz
gan - Gan Chinese
gan-hans - Simplified Gan script
gan-hant - Traditional Gan script
gd - Scottish Gaelic
gl - Galician
glk - Gilaki
gn - Guarani
gom - Goan Konkani
gom-deva - Goan Konkani (Devanagari script)
gom-latn - Goan Konkani (Latin script)
got - Gothic
grc - Ancient Greek
gsw - Swiss German
gu - Gujarati
gv - Manx
ha - Hausa
hak - Hakka Chinese
haw - Hawaiian
he - Hebrew
hi - Hindi
hif - Fiji Hindi
hif-latn - Fiji Hindi (Latin script)
hil - Hiligaynon
ho - Hiri Motu
hr - Croatian
hrx - Hunsrik
hsb - Upper Sorbian
ht - Haitian Creole
hu - Hungarian
hy - Armenian
hz - Herero
ia - Interlingua
id - Indonesian
ie - Interlingue
ig - Igbo
ii - Sichuan Yi
ik - Inupiaq
ike-cans - Eastern Canadian (Aboriginal syllabics)
ike-latn - Eastern Canadian (Latin script)
ilo - Iloko
inh - Ingush
io - Ido
is - Icelandic
it - Italian
iu - Inuktitut
ja - Japanese
jam - Jamaican Creole English
jbo - Lojban
jut - Jutish
jv - Javanese
ka - Georgian
kaa - Kara-Kalpak
kab - Kabyle
kbd - Kabardian
kbd-cyrl - Адыгэбзэ
kg - Kongo
khw - Khowar
ki - Kikuyu
kiu - Kirmanjki
kj - Kuanyama
kk - Kazakh
kk-arab - Kazakh (Arabic script)
kk-cn - Kazakh (China)
kk-cyrl - Kazakh (Cyrillic script)
kk-kz - Kazakh (Kazakhstan)
kk-latn - Kazakh (Latin script)
kk-tr - Kazakh (Turkey)
kl - Kalaallisut
km - Khmer
kn - Kannada
ko - Korean
ko-kp - 한국어 (조선)
koi - Komi-Permyak
kr - Kanuri
krc - Karachay-Balkar
kri - Krio
krj - Kinaray-a
ks - Kashmiri
ks-arab - Kashmiri (Arabic script)
ks-deva - Kashmiri (Devanagari script)
ksh - Colognian
ku - Kurdish
ku-arab - كوردي (عەرەبی)
ku-latn - Kurdish (Latin script)
kv - Komi
kw - Cornish
ky - Kyrgyz
la - Latin
lad - Ladino
lb - Luxembourgish
lbe - лакку
lez - Lezghian
lfn - Lingua Franca Nova
lg - Ganda
li - Limburgish
lij - Ligurian
liv - Livonian
lmo - Lombard
ln - Lingala
lo - Lao
loz - Lozi
lrc - Northern Luri
lt - Lithuanian
ltg - Latgalian
lus - Mizo
luz - Southern Luri
lv - Latvian
lzh - Literary Chinese
lzz - Laz
mai - Maithili
map-bms - Basa Banyumasan
mdf - Moksha
mg - Malagasy
mh - Marshallese
mhr - Eastern Mari
mi - Maori
min - Minangkabau
mk - Macedonian
ml - Malayalam
mn - Mongolian
mo - молдовеняскэ
mr - Marathi
mrj - Western Mari
ms - Malay
mt - Maltese
mus - Creek
mwl - Mirandese
my - Burmese
myv - Erzya
mzn - Mazanderani
na - Nauru
nah - Nāhuatl
nan - Min Nan Chinese
nap - Neapolitan
nb - Norwegian Bokmål
nds - Low German
nds-nl - Low Saxon
ne - Nepali
new - Newari
ng - Ndonga
niu - Niuean
nl - Dutch
nl-informal - Nederlands (informeel)
nn - Norwegian Nynorsk
nov - Novial
nrm - Nouormand
nso - Northern Sotho
nv - Navajo
ny - Nyanja
oc - Occitan
olo - Livvi-Karelian
om - Oromo
or - Oriya
os - Ossetic
pa - Punjabi
pag - Pangasinan
pam - Pampanga
pap - Papiamento
pcd - Picard
pdc - Pennsylvania German
pdt - Plautdietsch
pfl - Palatine German
pi - Pali
pih - Norfuk / Pitkern
pl - Polish
pms - Piedmontese
pnb - Western Punjabi
pnt - Pontic
prg - Prussian
ps - Pashto
pt - Portuguese
pt-br - Brazilian Portuguese
qu - Quechua
qug - Chimborazo Highland Quichua
rgn - Romagnol
rif - Riffian
rm - Romansh
rmy - Romani
rn - Rundi
ro - Romanian
roa-tara - tarandíne
ru - Russian
rue - Rusyn
rup - Aromanian
ruq - Megleno-Romanian
ruq-cyrl - Megleno-Romanian (Cyrillic script)
ruq-latn - Megleno-Romanian (Latin script)
rw - Kinyarwanda
sa - Sanskrit
sah - Sakha
sat - Santali
sc - Sardinian
scn - Sicilian
sco - Scots
sd - Sindhi
sdc - Sassarese Sardinian
sdh - Southern Kurdish
se - Northern Sami
sei - Seri
ses - Koyraboro Senni
sg - Sango
sgs - Samogitian
sh - Serbo-Croatian
shi - Tachelhit
shi-latn - Tašlḥiyt
shi-tfng - ⵜⴰⵛⵍⵃⵉⵜ
si - Sinhala
sk - Slovak
sl - Slovenian
sli - Lower Silesian
sm - Samoan
sma - Southern Sami
sn - Shona
so - Somali
sq - Albanian
sr - Serbian
sr-ec - Serbian (Cyrillic script)
sr-el - Serbian (Latin script)
srn - Sranan Tongo
ss - Swati
st - Southern Sotho
stq - Saterland Frisian
su - Sundanese
sv - Swedish
sw - Swahili
szl - Silesian
ta - Tamil
tcy - Tulu
te - Telugu
tet - Tetum
tg - Tajik
tg-cyrl - Tajik (Cyrillic script)
tg-latn - Tajik (Latin script)
th - Thai
ti - Tigrinya
tk - Turkmen
tl - Tagalog
tly - Talysh
tn - Tswana
to - Tongan
tokipona - Toki Pona
tpi - Tok Pisin
tr - Turkish
tru - Turoyo
ts - Tsonga
tt - Tatar
tt-cyrl - Tatar (Cyrillic script)
tt-latn - Tatar (Latin script)
tum - Tumbuka
tw - Twi
ty - Tahitian
tyv - Tuvinian
tzm - Central Atlas Tamazight
udm - Udmurt
ug - Uyghur
ug-arab - Uyghur (Arabic script)
ug-latn - Uyghur (Latin script)
uk - Ukrainian
ur - Urdu
uz - Uzbek
uz-cyrl - ўзбекча
uz-latn - oʻzbekcha
ve - Venda
vec - Venetian
vep - Veps
vi - Vietnamese
vls - West Flemish
vmf - Main-Franconian
vo - Volapük
vot - Votic
vro - Võro
wa - Walloon
war - Waray
wo - Wolof
wuu - Wu Chinese
xal - Kalmyk
xh - Xhosa
xmf - Mingrelian
yi - Yiddish
yo - Yoruba
yue - Cantonese
za - Zhuang
zea - Zeelandic
zh - Chinese
zh-cn - Chinese (China)
zh-hans - Simplified Chinese
zh-hant - Traditional Chinese
zh-hk - Chinese (Hong Kong)
zh-mo - 中文(澳門)
zh-my - 中文(马来西亚)
zh-sg - Chinese (Singapore)
zh-tw - Chinese (Taiwan)
zu - Zulu
qqq - Message documentation
Format
Экспорт для оффлайнового перевод
Экспорт в родном формате
{{DISPLAYTITLE:WebHMI Internal Registers}}<languages/> The following internal registers are available in WebHMI (for version 1.5 and higher): == Cx - Communication registers == <p>The presence of communication errors on different connections</p> <table border="1" cellspacing="0"> <tr><td>Register</td><td>Description</td><td>Units</td><td>Data type</td><td>Read/Write</td></tr> <tr><td>C0</td><td>The presence of communication errors in any of the connections. 0 means there is no communication error. A positive number indicates the connection number in which there is a communication error.</td><td>Connection number</td><td>Word, Unsigned Int</td><td>Read/-</td></tr> <tr><td>C1</td><td>The presence of a communication error in connection with ID = 1. 0 means there are no errors. A positive number means a register ID that can not be read.</td><td>Register number</td><td>Word, Unsigned Int</td><td>Read/-</td></tr> <tr><td>C2</td><td>The presence of a communication error in connection with ID = 2. 0 means there are no errors. A positive number means a register ID that can not be read.</td><td>Register number</td><td>Word, Unsigned Int</td><td>Read/-</td></tr> <tr><td>...</td><td>...</td><td></td><td>...</td><td>...</td></tr> </table> == CDxxx - Connection Disabled registers == <p>Connection status - enabled / disabled. This register allows you to see whether the exchange is disabled for a specific connection. If the exchange is disabled, the system will return 1. If the exchange is not disabled, it will return 0. Recording to these registers allows you to enable / disable the exchange on the desired connection. To disable the exchange, you need to write 1 to the appropriate register.</p> <table border="1" cellspacing="0"> <tr><td>Register</td><td>Description</td><td>Data type</td><td>Read/Write</td></tr> <tr><td>CD1</td><td>Exchange turned on connection with ID = 1.</td><td>Bit</td><td>Read/Write</td></tr> <tr><td>CD2</td><td>Exchange turned on connection with ID = 2.</td><td>Bit</td><td>Read/Write</td></tr> <tr><td>CD3</td><td>Exchange turned on connection with ID = 3.</td><td>Bit</td><td>Read/Write</td></tr> <tr><td>...</td><td>...</td><td></td><td>...</td></tr> </table> == Dxxx - Data registers == <table border="1" cellspacing="0"> <tr><td>Register</td><td>Описание</td><td>Units</td><td>Data type</td><td>Read/Write</td></tr> <tr><td>D0</td><td>A common register for user needs.</td><td></td><td>Bit, Byte, Word, Double Word</td><td>Read/Write</td></tr> <tr><td colspan="7" align="center">...</td></tr> <tr><td>D1999</td><td>A common register for user needs.</td><td></td><td>Bit, Byte, Word, Double Word</td><td>Read/Write</td></tr> </table> The data in these registers are NOT stored after the reboot. The user can access 2000 bytes of RAM. The register address is the address of the beginning of the fragment in the memory block. Depending on the selected data type, a different number of bytes is required per register. So, you can access the register with address D12 as byte. In this case, there will be a reference to one byte in memory. If you access the register with the address D12 as a word (Word), then physically there will be access to two bytes with addresses D12 and D13 of which the word will be composed. In this way, you can access the individual bytes in the desired word or double word. The system does not check the register addresses for intersections or overlays. This control must be performed by the user. == DSxxx - Data static registers == <table border="1" cellspacing="0"> <tr><td>Register</td><td>Description</td><td>Units</td><td>Data type</td><td>Read/Write</td></tr> <tr><td>DS0</td><td>Non-volatile register for user needs.</td><td></td><td>Byte, Word, Double Word</td><td>Read/Write</td></tr> <tr><td colspan="7" align="center">...</td></tr> <tr><td>DS1999</td><td>Non-volatile register for user needs.</td><td></td><td>Byte, Word, Double Word</td><td>Read/Write</td></tr> </table> The data in these registers are stored after rebooting. The user can access 2000 bytes in non-volatile memory. The register address is the address of the beginning of the fragment in the memory block. Depending on the selected data type, a different number of bytes is required per register. So, you can access the register with the DS12 address as a byte. In this case, there will be a reference to one byte in memory. If you access the register with DS12 as the word (Word), then physically it will access two bytes with DS12 and DS13 addresses of which the word will be composed. In this way, you can access the individual bytes in the desired word or double word. The system does not check the register addresses for intersections or overlays. This control must be performed by the user. Nonvolatile memory is implemented in the hardware revision platform V5.34 and higher. == Tx - Time registers == <table border="1" cellspacing="0"> <tr><td>Register</td><td>Description</td><td>Units</td><td> Data type</td><td>Read/Write</td></tr> <tr><td>T0</td><td>Current time</td><td>Seconds</td><td>[[https://ru.wikipedia.org/wiki/UNIX-время UnixTime]]</td><td>Read/-</td></tr> <tr><td>T1</td><td>The time taken to exchange data with all the registers in the previous cycle.</td><td>Милисекунды</td><td>Double Word, Unsigned Int</td><td>Read/-</td></tr> <tr><td>T2</td><td>Time spent on data exchange, processing of all events, scripts, writing to the database, writing new values to the devices in the previous cycle. In fact, this is a complete cycle without taking into account the pause between cycles.</td><td>Милисекунды</td><td>Double Word, Unsigned Int</td><td>Read/-</td></tr> <tr><td>T3</td><td>The total actual time of the previous cycle, taking into account the pause between cycles.</td><td>Milliseconds</td><td>Double Word, Unsigned Int</td><td>Read/-</td></tr> </table> == Hx - Hardware-related registers == Registers for reading WebHMI on-board hardware status <table border="1" cellspacing="0"> <tr><td>Register</td><td>Description</td><td>Units</td><td>Data type</td><td>Read/Write</td></tr> <tr><td>H0</td><td>Flag is the validity of the temperature value. 1 = value is reliable, 0 = value is not reliable</td><td></td><td>Bit</td><td>Read/-</td></tr> <tr><td>H1</td><td>Validation flag of power controller registers, 1 = valid values, 0 = values are not reliable</td><td></td><td>Bit</td><td>Read/-</td></tr> <tr><td>H2</td><td>RTC IC Temperature</td><td>Celsius degrees</td><td>Double word, float 32</td><td>Read/-</td></tr> <tr><td>H3</td><td>Input voltage </td><td>Вольты</td><td>Double word, float 32</td><td>Read/-</td></tr> <tr><td>H4</td><td>Battery voltage</td><td>Вольты</td><td>Double word, float 32</td><td>Read/-</td></tr> <tr><td>H5</td><td>“Power OK” - power is good.</td><td></td><td>Bit</td><td>Read/-</td></tr> <tr><td>H6</td><td>"Battery Low" - the battery is discharged. 1 means that the battery voltage reached a minimal but still operational voltage, WebHMI will complete its work in a regular manner.</td><td></td><td>Bit</td><td>Read/-</td></tr> <tr><td>H7</td><td>Battery Critical.The voltage on the battery has reached a minimum value, and if the input voltage does not appear within 10 seconds, the controller will de-energize WebHMI.</td><td></td><td>Bit</td><td>Read/-</td></tr> <tr><td>H8</td><td>System OK. 1 means the system has booted up and running.</td><td></td><td>Bit</td><td>Read/-</td></tr> <tr><td>H9</td><td>“External Power Supply”. Working from 24V. 1 means that the system is powered by external power.</td><td></td><td>Bit</td><td>Read/-</td></tr> <tr><td>H10</td><td>“Internal Power Supply”. Working from battery. 1 means the system is running on battery power.</td><td></td><td>Bit</td><td>Read/-</td></tr> <tr><td>H11</td><td>"Reset enabled" - The timer for the RESET signal is switched on. 1 means the system is about to reboot.</td><td></td><td>Bit</td><td>Read/-</td></tr> <tr><td>H12</td><td>“Power OFF enabled”. 1 means the system is going to shut down.</td><td></td><td>Bit</td><td>Read/-</td></tr> </table> == B0 - Sound alert register == <p>With the help of this register you can make sounds of the built-in WebHMI buzzer. A value of 1 to 8 must be written to the register. WebHMI will issue a corresponding number of beeps. After the signals sound, WebHMI stops making a sound. To repeat the sound signal, you need to write down the desired number again in this register. You can write to this register using scripts. So, for example, you can make a squeaking when the connection breaks down or when an emergency situation occurs. </p> <p>When reading from this register, 0 will always return.</p> == DOx - Digital Output registers == <p>Registers of external solid-state relays (SSRs). When writing to the register, the corresponding SSR will be closed.</p> <p>With the help of SSR it is possible to organize control of external devices or to transmit signals to external systems. For example, you can connect a security or fire system and send them alarm signals.</p> <table border="1" cellspacing="0"> <tr><td>Register</td><td>Description</td><td>Ubits</td><td>Data type</td><td>Read/Write</td></tr> <tr><td>DO0</td><td>SSR number 1</td><td></td><td>Bit</td><td>Read/Write</td></tr> <tr><td>DO1</td><td>SSR number 2</td><td></td><td>Bit</td><td>Read/Write</td></tr> </table> == Ixxx - Intervals == <p>Interval registers. Usually used in the event conditions. For example, if you want to receive an event that fires every 10 seconds, you can compare the value of I10 with zero (I10 == 0). If you need an interval of 2 minutes then you need to use the I120 register.</p> <table border="1" cellspacing="0"> <tr><td>Register</td><td>Description</td><td>Units</td><td>Data type</td><td>Read/Write</td></tr> <tr><td>I1</td><td>The remainder of the current time division by 1</td><td>Seconds</td><td>Double Word, Unsigned Int</td><td>Read/-</td></tr> <tr><td>I2</td><td>The remainder of the current time division by 2</td><td>Seconds</td><td>Double Word, Unsigned Int</td><td>Read/-</td></tr> <tr><td>I3</td><td>The remainder of the current time division by 3</td><td>Seconds</td><td>Double Word, Unsigned Int</td><td>Read/-</td></tr> <tr><td colspan="7" align="center">...</td></tr> </table> == Rxxx - Random values == <p>Random number generator. Rxxx = rand() % xxx.</p> <p>The value of the register with the number xxx is the remainder of the division of the random number by xxx (register address).</p> <p>Example: R123 will return random numbers in the range from 0 to 122 inclusive.</p> <table border="1" cellspacing="0"> <tr><td>Register</td><td>Description</td><td>Units</td><td>Data type/td><td>Read/Write</td></tr> <tr><td>R2</td><td>Random integer in the range from 0 to 1 (inclusive).</td><td></td><td>Double Word, Unsigned Int</td><td>Read/-</td></tr> <tr><td>R3</td><td>Random integer in the range from 0 to 2 (inclusive).</td><td></td><td>Double Word, Unsigned Int</td><td>Read/-</td></tr> <tr><td>R4</td><td>Random integer in the range from 0 to 3(inclusive)..</td><td></td><td>Double Word, Unsigned Int</td><td>Read/-</td></tr> <tr><td colspan="7" align="center">...</td></tr> </table> == Lx - Linux-related registers == <p>Some most important metrics of the operating system. </p> <table border="1" cellspacing="0"> <tr><td>Register</td><td>Description</td><td>Units</td><td>Data type</td><td>Read/Write</td></tr> <tr><td>L0</td><td>Free memory</td><td>KiB</td><td>Word, Unsigned Int</td><td>Read/-</td></tr> <tr><td>L1</td><td>Free memory plus memory occupied by OS buffers</td><td>KiB</td><td>Word, Unsigned Int</td><td>Read/-</td></tr> <tr><td>L2</td><td>1 minute [[http://blog.scoutapp.com/articles/2009/07/31/understanding-load-averages load average]]</td><td></td><td>Double Word, Float 32</td><td>Read/-</td></tr> <tr><td>L3</td><td>5 minutes [[http://blog.scoutapp.com/articles/2009/07/31/understanding-load-averages load average]]</td><td></td><td>Double Word, Float 32</td><td>Read/-</td></tr> <tr><td>L4</td><td>15 minutes [[http://blog.scoutapp.com/articles/2009/07/31/understanding-load-averages load average]]</td><td></td><td>Double Word, Float 32</td><td>Read/-</td></tr> </table> == Exxx.xxx - Event registers == <p>Registers of events. If the event X, for which id = Y, is now being executed, then some of its values from registers of the form EY.xxx can be read. Only reading.</p> <p>You can read the values that are added to the report table. For convenience, each such value is signed directly in the condition editor.</p> [[Файл:Event_registers.png|1000px]] <p>On this screen threre are registers E1.0, E1.1, E1.2. When the event is now on, the register will store respective values from the report with id = 1. In this example the E1.0 register will store event start time [[https://ru.wikipedia.org/wiki/UNIX-время UnixTime]], E1.1 - event end time or 0 if event not finished yet, E1.2 - the value from register "Recipe" at the moment of event start.</p> == ESxxx - Event State == <p>Event state registers.</p> <p>For example, value "1" in the ES2 register means that the event with id = 2 is now running. If the register ES2 = "0", then event is not active.</p> <table border="1" cellspacing="0"> <tr><td>Register</td><td>Description</td><td>Units</td><td>Data type</td><td>Read/Write</td></tr> <tr><td>ES1</td><td> Event state with id=1</td><td></td><td>Bit</td><td>Read/-</td></tr> <tr><td>ES2</td><td> Event state withid=2</td><td></td><td>Bit</td><td>Read/-</td></tr> <tr><td>ES3</td><td> Event state with id=3</td><td></td><td>Bit</td><td>Read/-</td></tr> <tr><td colspan="7" align="center">...</td></tr> </table> == ELxxx - Event Length == <p>Event length registers.</p> <p>For example, the EL2 register will contain the duration in seconds of the event with id = 2, provided that this event is currently running. If the register EL2 is zero, then this means that the condition is not met or its duration is less than 1 second.</p> <table border="1" cellspacing="0"> <tr><td>Register</td><td>Description</td><td>Units</td><td>Data type</td><td>Read/Write</td></tr> <tr><td>EL1</td><td>Duration of the event with id=1</td><td>Секунды</td><td>Double Word</td><td>Read/-</td></tr> <tr><td>EL2</td><td>Duration of the event with id=2</td><td>Секунды</td><td>Double Word</td><td>Read/-</td></tr> <tr><td>EL3</td><td>Duration of the event with id=3</td><td>Секунды</td><td>Double Word</td><td>Read/-</td></tr> <tr><td colspan="7" align="center">...</td></tr> </table> == Sxxx - String == Since version 1.11.0.3478 in WebHMI, a new data type has been added-strings. The strings are available as internal Sxxx registers. A total of 200 such registers are available S1 ... S200. <table border="1" cellspacing="0"> <tr><td>Register</td><td>Description</td><td>Data type</td><td>Read/Write</td></tr> <tr><td>S1</td><td>String variable 1</td><td>String</td><td>Read/Write</td></tr> <tr><td>S2</td><td>String variable 2</td><td>String</td><td>Read/Write</td></tr> <tr><td>S3</td><td>String variable 3</td><td>String</td><td>Read/Write</td></tr> <tr><td colspan="7" align="center">...</td></tr> <tr><td>S200</td><td>String variable 200</td><td>String</td><td>Read/Write</td></tr> </table> == TRxxx - Title of recipe == Since version 2.7 in WebHMI, a new type of internal registers TRxx has been added. They contain the names of recipes with the specified ID. <table border="1" cellspacing="0"> <tr><td>Register</td><td>Description</td><td>Data type</td><td>Read/Write</td></tr> <tr><td>TR1</td><td>Title of recipe with ID=1</td><td>String</td><td>Read/Write</td></tr> <tr><td>TR2</td><td>Title of recipe with ID=2</td><td>String</td><td>Read/Write</td></tr> <tr><td>TR3</td><td>Title of recipe with ID=3</td><td>String</td><td>Read/Write</td></tr> <tr><td colspan="7" align="center">...</td></tr> </table> == WCxxx - Weather Condition registers == <p>Current meteorological information. A group of registers that provide current weather information at the WebHMI installation site. The data is updated approximately every two hours. The service requires an Internet connection, an account in Level2 and a subscription to the weather forecast. Registers are available since version 2.5.2400.</p> <table border="1" cellspacing="0"> <tr><td>Register</td><td>Description</td><td>Data type</td><td>Read/Write</td></tr> <tr><td>WC0</td><td>Timestamp of the data received.</td><td>Double Word, Unixtime</td><td>Read/-</td></tr> <tr><td>WC1</td><td> Air temperature, Celsius degrees.</td><td>Double Word, Float</td><td>Read/-</td></tr> <tr><td>WC2</td><td>Pressure, hPa.</td><td>Word, Int</td><td>Read/-</td></tr> <tr><td>WC3</td><td>Relative humidity, %.</td><td>Word, Int</td><td>Read/-</td></tr> <tr><td>WC4</td><td>Wind speed, м/с.</td><td>Double Word, Float</td><td>Read/-</td></tr> <tr><td>WC5</td><td>The direction from where the wind blows, the metrological degrees.</td><td>Double Word, Float</td><td>Read/-</td></tr> <tr><td>WC6</td><td> Cloudiness, %.</td><td>Word, Int</td><td>Read/-</td></tr> <tr><td>WC7</td><td>Precipitation(rain), mm.</td><td>Double Word, Float</td><td>Read/-</td></tr> <tr><td>WC8</td><td>Precipitation (snow), mm.</td><td>Double Word, Float</td><td>Read/-</td></tr> <tr><td>WC9</td><td>Textual description of the current weather</td><td>String</td><td>Read/-</td></tr> </table> <p>Textual description of the current weather can be on of these: Clear, Clouds, Rain, Snow, Thunderstorm, Mist.</p> == WFxxx - Weather Forecast registers == <p>Weather forecast for the next day with an interval of 3 hours. The forecast is available for seven 3-hour intervals ahead. The data is updated approximately every two hours. The service requires an Internet connection, an account in Level2 and a subscription to the weather forecast. Registers are available since version 2.5.2400.</p> <p>The registers are the same as the WCxxx registers. Addresses of registers are constructed in this way: [interval number] * 10 + [register address WCxxx].</p> <p>Example: <br> WF1 = Air temperature in the next 3 hours interval.<br> WF21 = Air temperature in the next 6 hours interval.<br> WF31 = Air temperature in the next 9 hours interval.<br> И т.д. </p> <p>For a more accurate understanding of how long a forecast is built, you can use timestamps in the WFx0 registers.</p> <table border="1" cellspacing="0"> <tr><td>Register</td><td>Description</td><td>Data type</td><td>Read/Write</td></tr> <tr><td>WF0</td><td>Interval 1. The time for which the data was received.</td><td>Double Word, Unixtime</td><td>Read/-</td></tr> <tr><td>WF1</td><td>Interval 1. Air temperature, degrees Celsius.</td><td>Double Word, Float</td><td>Read/-</td></tr> <tr><td>WF2</td><td>Interval 1. Pressure, hPa</td><td>Word, Int</td><td>Read/-</td></tr> <tr><td>WF3</td><td>Interval 1. Relative humidity, %.</td><td>Word, Int</td><td>Read/-</td></tr> <tr><td>WF4</td><td>Interval 1. Wind speed, m/s.</td><td>Double Word, Float</td><td>Read/-</td></tr> <tr><td>WF5</td><td>Interval 1. The direction from where the wind is blowing, meteorological degrees.</td><td>Double Word, Float</td><td>Read/-</td></tr> <tr><td>WF6</td><td>Interval 1. Cloudiness, %.</td><td>Word, Int</td><td>Read/-</td></tr> <tr><td>WF7</td><td>Interval 1. Precipitation (rain), mm.</td><td>Double Word, Float</td><td>Read/-</td></tr> <tr><td>WF8</td><td>Interval 1. Precipitation (snow), mm.</td><td>Double Word, Float</td><td>Read/-</td></tr> <tr><td>WF9</td><td>Interval 1. Textual description of the current weather</td><td>String</td><td>Read/-</td></tr> <tr><td>WF10</td><td>Interval 2. The time for which the data was received.</td><td>Double Word, Unixtime</td><td>Read/-</td></tr> <tr><td>WF11</td><td>Interval 2. Air temperature, degrees Celsius.</td><td>Double Word, Float</td><td>Read/-</td></tr> <tr><td>WF12</td><td>Interval 2. Pressure, hPa.</td><td>Word, Int</td><td>Read/-</td></tr> <tr><td>WF13</td><td>Interval 2. Relative humidity, %.</td><td>Word, Int</td><td>Read/-</td></tr> <tr><td>WF14</td><td>Interval 2. Wind speed, м/с.</td><td>Double Word, Float</td><td>Read/-</td></tr> <tr><td>WF15</td><td>Interval 2. The direction from where the wind is blowing, meteorological degrees.</td><td>Double Word, Float</td><td>Read/-</td></tr> <tr><td>WF16</td><td>Interval 2. Cloudiness, %.</td><td>Word, Int</td><td>Read/-</td></tr> <tr><td>WF17</td><td>Interval 2. Precipitation (rain), mm.</td><td>Double Word, Float</td><td>Read/-</td></tr> <tr><td>WF18</td><td>Interval 2. Precipitation (snow), mm.</td><td>Double Word, Float</td><td>Read/-</td></tr> <tr><td>WF19</td><td>Interval 2. Textual description of the current weather</td><td>String</td><td>Read/-</td></tr> <tr><td>...</td><td>...</td><td>...</td><td>...</td></tr> <tr><td>WF60</td><td>Interval 7. The time for which the data was received.</td><td>Double Word, Unixtime</td><td>Read/-</td></tr> <tr><td>WF61</td><td>Interval 7. Air temperature, degrees Celsius.</td><td>Double Word, Float</td><td>Read/-</td></tr> <tr><td>WF62</td><td>Interval 7. Pressure, hPa.</td><td>Word, Int</td><td>Read/-</td></tr> <tr><td>WF63</td><td>Interval 7. Relative humidity, %.</td><td>Word, Int</td><td>Read/-</td></tr> <tr><td>WF64</td><td>Interval 7. Wind speed, м/с.</td><td>Double Word, Float</td><td>Read/-</td></tr> <tr><td>WF65</td><td>Interval 7. The direction from where the wind is blowing, meteorological degrees.</td><td>Double Word, Float</td><td>Read/-</td></tr> <tr><td>WF66</td><td>Interval 7. Cloudiness, %.</td><td>Word, Int</td><td>Read/-</td></tr> <tr><td>WF67</td><td>Interval 7. Precipitation (rain), mm.</td><td>Double Word, Float</td><td>Read/-</td></tr> <tr><td>WF68</td><td>Interval 7. Precipitation (snow), mm.</td><td>Double Word, Float</td><td>Read/-</td></tr> <tr><td>WF69</td><td>Interval 7. Textual description of the current weather</td><td>String</td><td>Read/-</td></tr> </table> <p>Textual description of the current weather can be: Clear, Clouds, Rain, Snow, Thunderstorm, Mist.</p> == WSxxx - Sunset/Sunrize registers == <p>The time of sunrise and sunset in the current day. The service requires an Internet connection, an account in Level2 and a subscription to the weather forecast. Registers are available since version 2.5.2400.</p> <table border="1" cellspacing="0"> <tr><td>Register</td><td>Description</td><td>Data type</td><td>Read/Write</td></tr> <tr><td>WS0</td><td>Sunrise time.</td><td>Double Word, Unixtime</td><td>Read/-</td></tr> <tr><td>WS1</td><td>Sunset time.</td><td>Double Word, Unixtime</td><td>Read/-</td></tr> </table> <p>A textual description of the current weather can be: Clear, Clouds, Rain, Snow, Thunderstorm, Mist.</p>
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