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Lutron Electronics HomeWorks Protocol Manual
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Summary of Contents for Lutron Electronics HomeWorks
- Page 2 RS-232 Command Set HomeWorks Interactive RS-232 Command Set Technical Specs Command Format Device Address Format Time Format Date Format Keypad Button Numbering Monitor Output Format Keypad button press Keypad button release Keypad button hold Keypad button double tap Keypad led states...
- Page 3 RS-232 Command Set Dimmer Commands Actions Fade a system dimmer Raise a system dimmer Lower a system dimmer Stop a dimmer raise/lower Flash a system dimmer Stop dimmer flashing Dimmer button press Dimmer button double tap Requests Request dimmer level GRAFIK Eye Commands Actions Select GRAFIK Eye scene...
- Page 4 RS-232 Command Set Pulse CCO relay Close CCO relay Open CCO relay Requests Request keypad enabled/disabled state Request keypad led states Request last button pressed on a keypad Sivoia Commands Actions Select Sivoia scene command Requests Request Sivoia scene command Time Clock Commands Actions Set system time...
- Page 5 RS-232 Command Set Scene Saver Mode Commands Actions Begin scene saver mode Terminate scene saver mode Scene save on a keypad button Scene restore on a keypad button Requests Request scene save mode state Vacation Mode Commands Actions Vacation mode record Vacation mode playback Vacation mode disable Requests...
- Page 6 RS-232 Command Set Monitoring Output Commands Actions Dimmer level/Sivoia scene monitoring on Dimmer level/Sivoia scene monitoring off Keypad/dimmer/Sivoia control button monitoring on Keypad/dimmer/Sivoia control button monitoring off Keypad led monitoring on Keypad led monitoring off GRAFIK Eye scene monitoring on GRAFIK Eye scene monitoring off System Commands Actions...
- Page 7 RS-232 Command Set back to the top... http://www.lutron.com/hwi/Help/L232.htm (6 of 6) [7/3/03 1:19:37 PM]...
Page 8: Technical Specifications
- Page 9 Technical Specifications Clear To Send (input) Request To Send (output) Ring Indicate (input) General Specifications The HWI processor connects to the serial port on a laptop using a standard DB-9 serial cable (all pins straight through) The default configuration for the HWI processor is to use hardware handshaking, which requires the pin connections as shown in the table above.
- Page 10 SETBAUD SETBAUD Set RS-232 port baud rate Syntax SETBAUD, <baud rate> Processor Responds with one of the following For this change to take effect, you must cycle the processor power. For this change to take effect, you must first set dip switch #1 on S2 in the down position and then cycle the processor power.
- Page 11 GETBAUD GETBAUD Get RS-232 port baud rate Syntax GETBAUD, <port address> Processor responds with the following RS232 port baud rate on port <port address> is <baud rate> Parameter Description Format port address (optional) the port address the request is pp:ll:aaa (see RS232 Port Addressing) This parameter is optional.
- Page 12 Device Address Formatting Device Address Formatting Every physical device in the system (RPM zone, D48 zone, GRAFIK Eye, etc) has a system device address. Each device address is separated into 3-5 elements as shown in the tables below Device address elements are listed in the order shown, separated by a period, colon, slash, backslash or dash.
- Page 13 Device Address Formatting 1-16 1-12 H48 Dimmer/Switch Processor Link Router (H48) Dimmer 1-16 RF Dimmer/Switch Processor Link Device Type Dimmer 1-16 1-64 RF Keypad Processor Link Device Type Keypad 1-16 1-32 RF Repeater Processor Link Device Type Repeater 1-16 Keypad/Sivoia Control/CCO/CCI/TEL-9 Processor Link Keypad...
- Page 14 Device Address Formatting RS232 Port Processor Link Port 1-16 3 or 7 GRAFIK Eye Main Unit Processor Link GRAFIK Eye 1-16 GRAFIK Eye Main Unit Single Zone Processor Link GRAFIK Eye Output 1-16 http://www.lutron.com/hwi/Help/l232/device_addressing.htm (3 of 3) [7/3/03 1:19:40 PM]...
- Page 15 SETHAND Set RS-232 port SETHAND handshaking type Syntax SETHAND, <handshaking> Processor Responds with one of the following No handshaking enabled Hardware handshaking enabled Parameter Description Format handshaking new RS-232 port handshaking you must select one of the type following handshaking types NONE, HW (Hardware) Description This command is used to specify the 232 port handshaking method to be used.
- Page 16 GETHAND Get RS-232 port GETHAND handshaking type Syntax GETHAND, <port address> Processor responds with the following RS232 port handshaking on processor <port address> is <handshaking type> Parameter Description Format port address (optional) the port address the request is pp:ll:aaa (see RS232 Port Addressing) This parameter is optional.
- Page 17 GETHAND See Also SETHAND - Set RS-232 port handshaking type http://www.lutron.com/hwi/Help/l232/gethand.htm (2 of 2) [7/3/03 1:19:40 PM]...
- Page 18 Command Formatting Command Formatting All commands are in ASCII characters. Each command is made up of fields, seperated by commas, and terminated with a carriage return <CR> = $0D Hex. Spaces are ignored, allowing for visual formatting of commands Where letters are used, case is ignored Some commands allow parameters to be omitted, and a default value will be used.
- Page 19 Time Formatting Time Formatting Times are used when entering fade or delay times, and for setting the internal processor clock When setting the system time, 24 hour format must be used When entering times the following formats may be used: HH:MM:SS MM:SS HH = Hours...
- Page 20 Dates are used when setting the internal processor calendar The month and day must have 2 digits, and the year must have 4 digits HomeWorks Interactive is year 2000 compliant The following formats can be used for entering the date...
- Page 21 Keypad Button Numbering Keypad Button Numbering HWI-KP5 HWI-KP10 HWI-KP15 http://www.lutron.com/hwi/Help/l232/diagrams.htm (1 of 6) [7/3/03 1:19:43 PM]...
- Page 22 Keypad Button Numbering HWI-4SE-M HWI-8SE-M HWI-4SE-IR HWI-8SE-IR http://www.lutron.com/hwi/Help/l232/diagrams.htm (2 of 6) [7/3/03 1:19:43 PM]...
- Page 23 Keypad Button Numbering HWI-2SE HWI-KP5-DN HWI-KP5-DW http://www.lutron.com/hwi/Help/l232/diagrams.htm (3 of 6) [7/3/03 1:19:43 PM]...
- Page 24 Keypad Button Numbering HWI-KP-LB6 HWI-KP-LB9 HWI-2B http://www.lutron.com/hwi/Help/l232/diagrams.htm (4 of 6) [7/3/03 1:19:43 PM]...
- Page 25 Keypad Button Numbering HWI-5S-IR HWI-5S-M SPACER HWI-5S-NM GRX-4/8-IT http://www.lutron.com/hwi/Help/l232/diagrams.htm (5 of 6) [7/3/03 1:19:43 PM]...
- Page 26 Keypad Button Numbering HWI-CCI HWI-CCO HWI-TEL 9 http://www.lutron.com/hwi/Help/l232/diagrams.htm (6 of 6) [7/3/03 1:19:43 PM]...
- Page 27 KBP_MON Keypad Button Press KBP Monitor String Monitor String Syntax KBP, <address>, <button number> Parameter Description Format address system address of the keypad [processor : link : address] device address formatting description button number button number that was pressed 1 - 24 Description The KBP monitor string is output from a processor when a keypad button is pressed Example...
- Page 28 KBR_MON Keypad Button Release KBR Monitor String Monitor String Syntax KBR, <address>, <button number> Parameter Description Format address system address of the keypad [processor : link : address] device address formatting description button number button number that was released 1 - 24 Description The KBR monitor string is output from a processor when a keypad button is released Example...
- Page 29 KBH_MON Keypad Button Hold KBH Monitor String Monitor String Syntax KBH, <address>, <button number> Parameter Description Format address system address of the keypad [processor : link : address] device address formatting description button number button number that was held 1 - 24 Description The KBH monitor string is output from a processor when a keypad button is held Example...
- Page 30 KBDT_MON Keypad Button Double Tap KBDT Monitor String Monitor String Syntax KBDT, <address>, <button number> Parameter Description Format address system address of the keypad [processor : link : address] device address formatting description button button number that was double tapped 1 - 24 number Description The KBDT monitor string is output from a processor when a keypad button is double tapped...
- Page 31 KBMON Keypad/Dimmer/Sivoia Control KBMON Button Monitoring On Syntax KBMON Processor Responds Keypad button monitoring enabled Description Enables keypad button monitoring on this processor. When any keypad button in the system is pressed, a monitoring message will be output from this processor indicating which processor, link, keypad address and button was activated.
- Page 32 KBMON Dimmer Button Double Tap Monitoring Output Format Sivoia Control Button Press Monitoring Output Format Sivoia Control Button Release Monitoring Output Format Sivoia Control Button Hold Monitoring Output Format Sivoia Control Button Double Tap Monitoring Output Format http://www.lutron.com/hwi/Help/l232/kbmon.htm (2 of 2) [7/3/03 1:19:45 PM]...
- Page 33 KBMOFF Keypad/Dimmer/Sivoia Control KBMOFF Button Monitoring Off Syntax KBMOFF Processor Responds Keypad button monitoring disabled Description Disables keypad button monitoring on this processor. When a keypad button in the system is pressed, this processor will not send a monitor output string. Also disables dimmer button monitoring on this processor.
- Page 34 KBMOFF Sivoia Control Button Hold Monitoring Output Format Sivoia Control Button Double Tap Monitoring Output Format http://www.lutron.com/hwi/Help/l232/kbmoff.htm (2 of 2) [7/3/03 1:19:46 PM]...
- Page 35 Dimmer Button Press Monitor String Dimmer Button Press DBP Monitor String Monitor String Syntax DBP, <address>, <button number> Parameter Description Format address system address of the H48 or RF device address formatting dimmer/switch description button button number that was pressed number Description The DBP monitor string is output from a processor when the tap switch for an H48 or RF...
- Page 36 Dimmer Button Release Monitor String Dimmer Button Release DBR Monitor String Monitor String Syntax DBR, <address>, <button number> Parameter Description Format address system address of the H48 dimmer/switch see device address formatting description button button number that was released number Description The DBP monitor string is output from a processor when the tap switch for an H48 dimmer/switch is released.
- Page 37 Dimmer Button Hold Monitor String Dimmer Button Hold DBH Monitor String Monitor String Syntax DBH, <address>, <button number> Parameter Description Format address system address of the H48 dimmer/switch see device address formatting description button button number that was held number Description The DBH monitor string is output from a processor when the tap switch for an H48 dimmer/switch is held.
- Page 38 Dimmer Button Double Tap Monitor String Dimmer Button Double Tap DBDT Monitor String Monitor String Syntax DBDT, <address>, <button number> Parameter Description Format address system address of the H48 or RF device address formatting dimmer/switch description button button number that was double tapped number Description The DBP monitor string is output from a processor when the tap switch for an H48...
- Page 39 SVBP_MON SVBP Monitor Sivoia Control Button Press Monitor String String Syntax SVBP, <address>, <button number> Parameter Description Format address system address of the Sivoia control [processor : link : address] device address formatting description button number button number that was pressed 1 - 24 Description The SVBP monitor string is output from a processor when a Sivoia control button is pressed...
- Page 40 SVBR_MON SVBR Monitor Sivoia Control Button Release Monitor String String Syntax SVBR, <address>, <button number> Parameter Description Format address system address of the Sivoia control [processor : link : address] device address formatting description button number button number that was released 1 - 24 Description The SVBR monitor string is output from a processor when a Sivoia control button is released.
- Page 41 SVBH_MON SVBH Monitor Sivoia Control Button Hold Monitor String String Syntax SVBH, <address>, <button number> Parameter Description Format address system address of the Sivoia control [processor : link : address] device address formatting description button number button number that was held 1 - 24 Description The SVBH monitor string is output from a processor when a Sivoia control button is held...
- Page 42 SVBDT_MON SVBDT Monitor Sivoia Control Button Double Tap Monitor String String Syntax SVBDT, <address>, <button number> Parameter Description Format address system address of the Sivoia control [processor : link : address] device address formatting description button button number that was double tapped 1 - 24 number Description The SVBDT monitor string is output from a processor when a Sivoia control button is double...
- Page 43 SVS_MON SVS Monitor Sivoia Scene Command Monitor Output String String Syntax SVS, <address>, <scene command>, <status> Parameter Description Format address system address of Sivoia control that [processor : link : address] changed device address formatting description scene Sivoia scene command 1 = Preset 1 command 2 = Preset 2...
- Page 44 SVS_MON SVS, [01:06:03], R, MOVING When the same Sivoia stops raising. SVS, [01:06:03], S, STOPPED See Also SVBP Monitor String SVBR Monitor String SVBH Monitor String SVBDT Monitor String KBMON - Keypad/Sivoia control button monitoring on KBMOFF - Keypad/Sivoia control button monitoring off http://www.lutron.com/hwi/Help/l232/svs_mon.htm (2 of 2) [7/3/03 1:19:50 PM]...
- Page 45 KLS_MON KLS Monitor String Keypad LED Monitor String Syntax KLS, <address>, <led states> Parameter Description Format address system address of the keypad [processor : link : address] device address formatting description led states the current state of the keypad's LEDs The first digit is LED 1, the last digit is LED 0 = Off 1 = On 2 = Flash 1...
- Page 46 KLMON Keypad LED Monitoring KLMON Syntax KLMON Processor Responds Keypad led monitoring enabled Description Enables keypad led monitoring on this processor. When any keypad led in the system changes state, a monitoring message will be output from this processor indicating which processor, link, interface, address, and its new led state Example Enable keypad led monitoring...
- Page 47 KLMOFF Keypad LED Monitoring KLMOFF Syntax KLMOFF Processor Responds Keypad led monitoring disabled Description Disables keypad led monitoring on this processor. When any keypad led in the system changes state, this processor will not send an led monitor output string. Example Disable keypad led monitoring L232>...
- Page 48 DL_MON Dimmer Level Monitor DL Monitor Output String Syntax DL, <address>, <level> Parameter Description Format address system address of zone that changed [processor : link : interface : module or bus : zone] device address formatting description level new level of the zone 0 - 100 (percent) Description The DL monitor string is output from a processor when any zone in the system changes level...
- Page 49 DLMON Dimmer Level/Sivoia Scene DLMON Monitoring On Syntax DLMON Processor Responds Dimmer level monitoring enabled Description Enables dimmer level monitoring on this processor. When any dimmer in the system changes level, a monitoring message will be output from this processor indicating which processor, link, interface and address.
- Page 50 DLMOFF Dimmer Level/Sivoia Scene DLMOFF Monitoring Off Syntax DLMOFF Processor Responds Dimmer level monitoring disabled Description Disables dimmer level monitoring on this processor. When a zone in the system changes levels, this processor will not send a monitor output string. Also disables Sivoia scene monitoring on this processor.
- Page 51 GSS_MON GRAFIK Eye Scene Select GSS Monitor String Monitor Output String Syntax GSS, <address>, <scene number> Parameter Description Format address system address of GRAFIK Eye that [processor : link : address] changed device address formatting description scene scene number selected 0 - 16 number 0 = Off...
- Page 52 GSMON GRAFIK Eye Scene GSMON Monitoring On Syntax GSMON Processor Responds GRAFIK Eye scene monitoring enabled Description Enables GRAFIK Eye scene monitoring on this processor. When any GRAFIK Eye in the system changes scenes, a monitoring message will be output from this processor indicating which processor, link, address and scene.
- Page 53 GSMOFF GRAFIK Eye Scene GSMOFF Monitoring Off Syntax GSMOFF Processor Responds GRAFIK Eye scene monitoring disabled Description Disables GRAFIK Eye scene monitoring on this processor. When any GRAFIK Eye in the system changes scenes, this processor will not send a GRAFIK Eye scene monitoring output string.
- Page 54 FADEDIM FADEDIM Fade a dimmer Syntax FADEDIM, <intensity>, <fade time>, <delay time>, <address 1>, ..., <address n> Parameter Description Format intensity target intensity for specified dimmer 0 - 100 (percent) fade time time for dimmers to fade from current HH:MM:SS intensity to target intensity example: 00:00:05 for 5 seconds time formatting...
- Page 55 FADEDIM STOPDIM - Stop a dimmer raise/lower http://www.lutron.com/hwi/Help/l232/fadedim.htm (2 of 2) [7/3/03 1:19:54 PM]...
- Page 56 FLASHDIM FLASHDIM Flash a dimmer Syntax FLASHDIM, <intensity>, <flash rate>, <address 1>, ..., <address n> Parameter Description Format intensity Intensity to flash the dimmers to 0 - 100 (percent) flash rate The amount of time the dimmers are HH:MM:SS on/off example: 00:00:05 for 5 seconds time formatting description...
- Page 57 STOPFLASH STOPFLASH Stop flashing a dimmer Syntax STOPFLASH, <address 1>, ..., <address n> Parameter Description Format address system address of zones to fade [processor : link : address] maximum of 10 address per command device address formatting description Description Stops flashing one or more system zones Example Stop flashing processor 1, link1, MI address 0, RPM module 2, zone 3 L232>...
- Page 58 RAISEDIM RAISEDIM Raise a dimmer Syntax RAISEDIM, <address 1>, ..., <address n> Parameter Description Format address system address of zones to fade [processor : link : address] maximum of 10 address per command device address formatting description Description Starts raising one or more system dimmers Example Start raising processor 1, link1, MI address 0, RPM module 2, zone 3 L232>...
- Page 59 LOWERDIM LOWERDIM Lower a dimmer Syntax LOWERDIM, <address 1>, ..., <address n> Parameter Description Format address system address of zones to fade [processor : link : address] maximum of 10 address per command device address formatting description Description Starts lowering one or more system dimmers Example Start lowering processor 1, link1, MI address 0, RPM module 2, zone 3 L232>...
- Page 60 STOPDIM STOPDIM Stop a dimmer raise/lower Syntax STOPDIM, <address 1>, ..., <address n> Parameter Description Format address system address of zones to fade [processor : link : address] maximum of 10 address per command device address formatting description Description Stops raising/lowering one or more system dimmers Example Stop raising/lowering processor 1, link1, MI address 0, RPM module 2, zone 3 L232>...
- Page 61 Dimmer Button Press Dimmer Button Press Syntax DBP, <address>, <button number> Parameter Description Format address system address of the H48 or RF device address formatting dimmer/switch description button button number to press number Description Simulates the press action of the tap switch for an H48 or RF dimmer/switch. This will affect the local load and activate any keypad-like press programming.
- Page 62 Dimmer Button Double Tap DBDT Dimmer Button Double Tap Syntax DBDT, <address>, <button number> Parameter Description Format address system address of the H48 or RF device address formatting dimmer/switch description button button number to double tap number Description Simulates the double tap action of the tap switch for an H48 or RF dimmer/switch. This will affect the local load and activate any keypad-like double tap programming.
- Page 63 Request a Dimmer Level Syntax RDL, <address> Processor responds with DL, <address>, <level> Parameter Description Format address system address of zone to query [processor : link : interface : module or bus : zone] device address formatting description level current level of the queried zone 0 - 100 (percent) Description Returns the current or target level for any zone in the sysyem Example...
- Page 64 FRPM FRPM Fade an RPM zone Syntax FRPM, <intensity>, <fade time>, <delay time>, <address 1>, ..., <address n> Parameter Description Format intensity target intensity for specified zones 0 - 100 (percent) fade time time for zones to fade from current HH:MM:SS intensity to target intensity example: 00:00:05 for 5 seconds...
- Page 65 Fade a Vareo zone Syntax FV, <intensity>, <fade time>, <delay time>, <address 1>, ..., <address n> Parameter Description Format intensity target intensity for specified zones 0 - 100 (percent) fade time time for zones to fade from current HH:MM:SS intensity to target intensity example: 00:00:05 for 5 seconds time formatting description...
- Page 66 GRAFIK Eye Scene Select Syntax GSS, <address>, <scene number> Parameter Description Format address system address of GRAFIK Eye to control [processor : link : address] device address formatting description scene scene number to select 0 - 16 number 0 = Off 1 - 16 = scene 1 - scene 16 Description Selects a scene on any GRAFIK Eye in the system...
- Page 67 Request a GRAFIK Eye's current scene Syntax RGS, <address> Processor responds with GSS, <address>, <scene number> Parameter Description Format address system address of GRAFIK Eye to query [processor : link : address] device address formatting description 0 - 16 scene scene number selected on the GRAFIK 0 = Off number...
- Page 68 Keypad Button Press Syntax KBP, <address>, <button number> Parameter Description Format address system address of the keypad [processor : link : address] device address formatting description button number button number to press 1 - 24 Description Simulates the press action of a keypad button. This does not simulate a true keypad button press that might include an immediate release.
- Page 69 Keypad Button Release Syntax KBR, <address>, <button number> Parameter Description Format address system address of the keypad [processor : link : address] device address formatting description button number button number to release 1 - 24 Description Simulates the release action of a keypad button. Example Release button 1 on processor 1, link 4, keypad address 10 L232>...
- Page 70 Keypad Button Hold Syntax KBH, <address>, <button number> Parameter Description Format address system address of the keypad [processor : link : address] device address formatting description button number button number to hold 1 - 24 Description Simulates the hold action of a keypad button. This does not simulate a true keypad button hold that will include a preceeding press Example Hold button 1 on processor 1, link 4, keypad address 10...
- Page 71 KBDT KBDT Keypad Button Double Tap Syntax KBDT, <address>, <button number> Parameter Description Format address system address of the keypad [processor : link : address] device address formatting description button number button number to double tap 1 - 24 Description Simulates the double tap action of a keypad button.
- Page 72 Keypad Enable Syntax KE, <address> Parameter Description Format address system address of the keypad [processor : link : address] device address formatting description Description Enable a keypad Example Enable processor 1, link 6, keypad 21 L232> KE, [1:6:21] See Also KD - Keypad disable RKES -Request keypad enabled state http://www.lutron.com/hwi/Help/l232/ke.htm [7/3/03 1:20:01 PM]...
- Page 73 Keypad Disable Syntax KD, <address> Parameter Description Format address system address of the keypad [processor : link : address] device address formatting description Description Disables a keypad Example Disable processor 1, link 6, keypad 21 L232> KD, [1:6:21] See Also KE - Keypad enable RKES -Request keypad enabled state http://www.lutron.com/hwi/Help/l232/kd.htm [7/3/03 1:20:01 PM]...
- Page 74 RKES Request Keypad Enabled RKES State Syntax RKES, <address> Processor responds with KES, <address>, <state> Parameter Description Format address system address of the keypad [processor : link : address] device address formatting description state the enabled/disabled state of the keypad Description Queries the system for the enabled/disabled state of a keypad Example...
- Page 75 SETLED SETLED Set an LED State Syntax SETLED, <address>, <led number>, <led state> Parameter Description Format address system address of the keypad [processor : link : address] device address formatting description led number on the keypad 1 - 24 number The led number is the corresponding button number 0 = Off...
- Page 76 RKLS Request a Keypad's LED RKLS States Syntax RKLS, <address> Processor Response KLS, <address>, <led states> Parameter Description Format address system address of the keypad [processor : link : address] device address formatting description The first digit is LED 1, the last digit is LED 0 = Off led states the current state of the keypad's LEDs 1 = On...
- Page 77 SETLED Set the LED States for a SETLEDS Whole Keypad Syntax SETLEDS, <address>, <led states> Parameter Description Format address system address of the keypad [processor : link : address] device address formatting description 0 = Off 1 = On states to set some or all the LEDs led states 2 = Flash 1 LED #1 is the left most LED in the string...
- Page 78 CCOPULSE CCOPULSE CCO Relay Pulse Syntax CCOPULSE, <address>, <relay number>, <pulse time> Parameter Description Format address system address of the CCO [processor : link : address] device address formatting description relay relay number to pulse 1 - 8 number 1 - 245 1 = 0.5 seconds 2 = 1.0 seconds pulse time pulse duration in 0.5 second increments...
- Page 79 CCOCLOSE CCOCLOSE CCO Relay Close Syntax CCOCLOSE, <address>, <relay number> Parameter Description Format address system address of the CCO [processor : link : address] device address formatting description relay number relay number to close 1 - 8 Description Closes a specific CCO relay Note - The processor does not verify that the given address is ACTUALLY a CCO address.
- Page 80 CCOOPEN CCOOPEN CCO Relay Open Syntax CCOOPEN, <address>, <relay number> Parameter Description Format address system address of the CCO [processor : link : address] device address formatting description relay number relay number to open 1 - 8 Description Opens a specific CCO relay Note - The processor does not verify that the given address is ACTUALLY a CCO address.
- Page 81 RKLBP Request Keypad Last RKLBP Button Press Syntax RKLBP, <address> Processor responds KLBP, <address>, <button number> Parameter Description Format address system address of the keypad [processor : link : address] device address formatting description button the last button pressed on the specified 1-24 number keypad...
- Page 82 SVSS Sivoia Scene Command SVSS Select Syntax SVSS, <address>, <scene command>, <delay time> Parameter Description Format address system address of Sivoia control [processor : link : address] device address formatting description scene Sivoia scene command to select 1 = Preset 1 command 2 = Preset 2 3 = Preset 3...
- Page 83 RSVS Request a Sivoia's Current RSVS Scene Command Syntax RSVS, <address> Processor responds with SVS, <address>, <scene command>, <status> Parameter Description Format address system address of Sivoia control to query [processor : link : address] device address formatting description 1 = Preset 1 2 = Preset 2 3 = Preset 3 scene...
- Page 84 Set Time Syntax ST, <time> Processor Responds Processor Time: <time> Parameter Description Format time current time of day in 24 hour format HH:MM:SS in 24 Hour format time address formatting description the seconds must be specified Description Sets the system time. This will update the time on all processors in the system. Example Set the time to 2:34 PM L232>...
- Page 85 Request System Time Syntax Processor Responds Processor Time: <time> Description Queries the current system time Example Request the system time L232> RST Processor Time: 12:00 See Also ST - Set system time SD - Set system date RSD - Request system date http://www.lutron.com/hwi/Help/l232/rst.htm [7/3/03 1:20:05 PM]...
- Page 86 Set Date Syntax SD, <date> Processor Responds Processor Date: <date> Parameter Description Format date current date MM/DD/YYYY date formatting description Description Sets the system date. This will update the date on all processors in the system. Example Set the date to March 10, 1999 L232>...
- Page 87 Request System Date Syntax Processor Responds Processor Date: <day of week> <date> Description Queries the current system date Example Request the system date L232> RSD Processor Date: Wednesday 03/10/1999 See Also SD - Set system date ST - Set system time RST - Request system time http://www.lutron.com/hwi/Help/l232/rsd.htm [7/3/03 1:20:06 PM]...
- Page 88 Timeclock Enable Syntax Processor Responds TCE: Timeclock Enabled Description Enables the system timeclock Example Enable the system timeclock L232> TCE TCE: Timeclock Enabled See Also TCD - Timeclock disable TCS - Timeclock state http://www.lutron.com/hwi/Help/l232/tce.htm [7/3/03 1:20:06 PM]...
- Page 89 Timeclock Disable Syntax Processor Responds TCD: Timeclock Disabled Description Disables the system timeclock Example Disable the system timeclock L232> TCD TCD: Timeclock Disabled See Also TCE - Timeclock enable TCS - Timeclock state http://www.lutron.com/hwi/Help/l232/tcd.htm [7/3/03 1:20:07 PM]...
- Page 90 Timeclock State Syntax Processor Responds with one of the following TCS: Timeclock Enabled TCS: Timeclock Disabled Description Queries the system for the timeclock state Example Query the system timeclock state L232> TCS TCS: Timeclock Enabled See Also TCE - Timeclock enable TCD - Timeclock disable http://www.lutron.com/hwi/Help/l232/tcs.htm [7/3/03 1:20:07 PM]...
- Page 91 RST2 Request System Time with RST2 seconds Syntax RST2 Processor Responds Processor Time: <time> Description Queries the current system time (including seconds) Example Request the system time L232> RST Processor Time: 12:00:00 See Also ST - Set system time SD - Set system date RST - Request system time RSD - Request system date http://www.lutron.com/hwi/Help/l232/rst2.htm [7/3/03 1:20:07 PM]...
- Page 92 SUNRISE SUNRISE Today's sunrise time Syntax SUNRISE Processor Responds with Today's Sunrise: <time> Description Returns the sunrise time for the current day. This can be useful when testing astronomic timeclock events. Example Request today's sunrise time L232> SUNRISE Today's Sunrise: 06:52 See Also SUNSET - Today's sunset time ST - Set system time...
- Page 93 SUNSET SUNSET Today's sunset time Syntax SUNSET Processor Responds with Today's Sunset: <time> Description Returns the sunset time for the current day. This can be useful when testing astronomic timeclock events. Example Request today's sunset time L232> SUNSET Today's Sunset: 06:52 See Also SUNRISE - Today's sunrise time ST - Set system time...
- Page 94 Scene Saver Mode Begin Syntax SSB, <timeout> Parameter Description Format timeout number of minutes scene saver mode will be CONT = continuous (no timeout) running 0 = 1 minute 1-1440 Processor Responds Scene Saver Mode Begin Description Begins scene saver mode with the specified timeout Example Begin scene saver mode without a timeout L232>...
- Page 95 Scene Saver Mode Terminate Syntax Processor Responds Scene Saver Mode Terminated Description Terminates scene saver mode Example Terminate scene saver mode L232> SST Scene Saver Mode Terminated See Also SSB - Scene saver mode begin SSS - Request scene saver mode state KBSS - Keypad button scene save KBSR - Keypad button scene restore http://www.lutron.com/hwi/Help/l232/sst.htm [7/3/03 1:20:09 PM]...
- Page 96 Scene Saver Mode State Syntax Processor Responds with one of the following Scene Saver Mode is Running Scene Saver Mode is Stopped Description Queries the system for the scene saver mode state Example Query the scene saver mode state L232> SSS Scene Saver Mode is Running See Also SSB - Scene saver mode begin...
- Page 97 KBSS KBSS Keypad Button Scene Save Syntax KBSS, <address>, <button number> Parameter Description Format address system address of the keypad [processor : link : address] device address formatting description button number button number to scene save 1 - 24 Processor Responds Preset Saved Description Scene save the current levels of the preset on the button that has scene saver option checked.
- Page 98 KBSR Keypad Button Scene Restore KBSR Syntax KBSR, <address>, <button number> Parameter Description Format address system address of the keypad [processor : link : address] device address formatting description button number button number to scene save 1 - 24 Processor Responds Preset Restored Description Restore the preset on the button that has scene saver option checked back to the levels of the uploaded preset.
- Page 99 Vacation Mode Record Syntax Processor Responds Vacation mode recording Description Begins recording vacation mode data Example Begin vacation mode recording L232> VMR Vacation mode recording See Also VMP - Vacation mode playback VMD - Vacation mode disable VMS - Vacation mode state http://www.lutron.com/hwi/Help/l232/vmr.htm [7/3/03 1:20:10 PM]...
- Page 100 Vacation Mode Playback Syntax Processor Responds Vacation mode playing Description Begins playback of vacation mode data Example Begin vacation mode playback L232> VMP Vacation mode playing See Also VMR - Vacation mode record VMD - Vacation mode disable VMS - Vacation mode state http://www.lutron.com/hwi/Help/l232/vmp.htm [7/3/03 1:20:10 PM]...
- Page 101 Vacation Mode Disable Syntax Processor Responds Vacation mode disabled Description Stops vacation mode recording or playback Example Stop vacation mode recording or playback L232> VMD Vacation mode disabled See Also VMP - Vacation mode playback VMR - Vacation mode record VMS - Vacation mode state http://www.lutron.com/hwi/Help/l232/vmd.htm [7/3/03 1:20:11 PM]...
- Page 102 Vacation Mode State Syntax Processor Responds with one of the following Vacation mode recording Vacation mode playing Vacation mode disabled Description Queries the system for the vacation mode state Example Query the vacation mode state L232> VMS Vacation mode recording See Also VMR - Vacation mode record VMP - Vacation mode playback...
- Page 103 Security Mode Begin Syntax Processor Responds Security mode begin Description Begins security mode Example Begin security mode L232> SMB Security mode begin See Also SMT - Security mode terminate SMS - Security mode state http://www.lutron.com/hwi/Help/l232/smb.htm [7/3/03 1:20:11 PM]...
- Page 104 Security Mode Terminate Syntax Processor Responds Security mode terminated Description Terminates security mode Example Terminate security mode L232> SMT Security mode terminated See Also SMB - Security mode begin SMS - Security mode status http://www.lutron.com/hwi/Help/l232/smt.htm [7/3/03 1:20:12 PM]...
- Page 105 Security Mode State Syntax Processor Responds with one of the following Security mode active Security mode terminated Description Queries the system for the security mode state Example Query the security mode state L232> SMS Security mode active See Also SMB - Security mode begin SMT - Security mode terminate http://www.lutron.com/hwi/Help/l232/sms.htm [7/3/03 1:20:12 PM]...
- Page 106 LOGIN LOGIN Login to the system Syntax LOGIN, <password>, <port address> Processor Responds with one of the following Processor <processor address> logging in RS232 ports Processor <processor address> RS232 ports logged in Logging in RS232 port <port address> RS232 port <port address> already logged in Missing or incorrect password.
- Page 107 LOGIN Processor 3 logging in RS232 ports Example Login port 7 of processor 2 in a system with password "lutron" L232> LOGIN, lutron, 2:7:1 Logging in RS232 port 02:07:001 See Also LOGOUT - Logout of the system http://www.lutron.com/hwi/Help/l232/login.htm (2 of 2) [7/3/03 1:20:13 PM]...
- Page 108 LOGOUT LOGOUT Logout of the system Syntax LOGOUT, <port address> Processor Responds with one of the following Processor <processor address> logging out RS232 ports Processor <processor address> lRS232 ports logged out Logging out RS232 port <port address> RS232 port <port address> logged out Parameter Description Format...
- Page 109 LOGOUT Logging out RS232 port 02:07:001 Example Logout all RS232 ports on processor connected to L232> LOGOUT, PROC Processor 1 logging out RS232 ports Example Logout all RS232 ports in the system with processors 1, 2 and 3 present L232> LOGOUT, ALL Processor 1 logging out RS232 ports Processor 2 logging out RS232 ports Processor 3 logging out RS232 ports...
- Page 110 PROMPTOFF PROMPTOFF Turn off the L232> Prompt Syntax PROMPTOFF Description When the L232> prompt is turned off, a new L232> will not be printed after each command execution. This can be useful when communicating with external A/V systems that would just ignore the prompt.
- Page 111 PROMPTON PROMPTON Turn on the L232> Prompt Syntax PROMPTON Description Re-enables the L232> prompt. After every command execution, a new L232> prompt will be issued. Example Turn the L232> prompt on. PROMPTON L232> See Also PROMPTOFF - Turn the L232> prompt off http://www.lutron.com/hwi/Help/l232/prompton.htm [7/3/03 1:20:14 PM]...
- Page 112 When the terminal screen is active in the programming tool, all terminal screen activity is logged to a file called cpu.log located in the /log directory under the HomeWorks Interactive directory. To access this file you must exit the programming screen (go to the floorplan for example);...
- Page 113 PROCADDR PROCADDR Processor Address Syntax PROCADDR Processor Responds with Processor Addresss : <address> Parameter Description Format address the address of the processor 1 - 16 that received the command Description Returns the address of the processor that received the command Example Request the processor address L232>...
- Page 114 This command is used to reset all RS-232 port settings to the serial driver settings assigned to that port using the HomeWorks Interactive software. The settings effected are baud rate, handshaking type, number of data bits, parity type, number of stop bits, and the status of HomeWorks monitoring messages.
- Page 115 OSREV OSREV Request O/S revision Syntax OSREV Processor responds with the following for each processor in the system Processor <processor address> O/S Rev = <O/S Rev> Parameter Description Format processor address The processor address 1-16 O/S Rev Revision number of the currently installed O/S 1-100 Description Returns the O/S revision for all processors in the system...
- Page 116 HELP HELP L232 Command Help Syntax HELP HELP,<command name> Description Typing HELP by itself will print a list of the currently available L232 commands with brief descriptions. To get command specific help, use the HELP,<command name> syntax Example Request help for the Keypad Button Press command L232>...
- Page 117 Revision History L232 Help Revision History v5 5-07-99 OS Rev 18 Added the following conmmands to this help document: SMB, SMT, SMS Added the keypad button numbering page v4 4-15-99 OS Rev 18 Added the following conmmands FADEDIM, RAISEDIM, LOWERDIM, STOPDIM, FLASHDIM, STOPFLASH, SETHAND Made the time formatting more flexible Updated HELP command page...
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Sivoia QS Wireless Insulating Honeycomb Shades
Insulating Honeycomb Shades represent an evolution in Lutron window treatment operation, as they are the first wire-free, battery-powered shading solution.
HomeWorks Whole Home Control
Saves energy with unparalleled total home control and easily integrate with third party manufacturers to control lights and shades. All equipment and temperature controls from a single keypad.
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- App & Integration
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- HOMEWORKS QS
HomeWorks with Lutron App
The QSX processor for HomeWorks creates a link between your HomeWorks system and the cloud, enabling control, integration, and monitoring of a HomeWorks system from a smartphone or tablet using the Lutron app. This app allows you to control all your homes from one convenient location, whether they have HomeWorks or RA2 Select.
Personalisation
Add personalised scenes to control multiple lights, blinds, and temperature together with the touch of a button. Create an "Entertain" scene that dims lights, lowers blinds, and raises the temperature as your guests arrive. Or create a "Goodnight" scene that turns off all lights, lowers blinds, and sets back the temperature before you drift off to sleep.
Control from anywhere
Control lights, blinds and temperature in the comfort of your home or from anywhere in the world - the office, the airport, the beach – so lights aren't left on or blinds aren't left open when you're away.
HomeWorks works with smart home solutions from other best-in-class brands, for voice, audio, temperature control, and more. Some of the solutions below may not be available in all countries. Visit their websites for more information.
Voice Control
Thermostats.
- Professional Integration
Amazon Alexa
Alexa will get the lights for you. Just say the word.
Apple® HomeKit
The Connect Bridge contains Apple® HomeKit technology, so you can use Siri to control your lights, blinds, and more!
Google Assistant
Enjoy hands-free control of the lights in your home with the Google Home voice-enabled speaker powered by the Google Assistant.
Control lights, blinds, temperature, audio, and more using a natural language-driven voice-activated artificial intelligence.
Honeywell Wi-Fi thermostats
Choose from a wide variety of thermostat options to control the temperature in your home, from anywhere. Compatible with all Honeywell Total Connect Comfort Wi-Fi thermostats.
ecobee Wi-Fi thermostats
Enjoy the right temperature in the rooms you use the most, with the ecobee3 thermostat and remote sensors. Compatible with the ecobee3 HomeKit-enabled thermostat and all other ecobee Wi-Fi thermostats.
Carrier Cör and Wi-Fi thermostats
Control the temperature in your home from wherever you are with Carrier Wi-Fi thermostats. Compatible with Carrier Cör thermostat and Comfort Series Wi-Fi thermostat.
Control your lights, shades, and Sonos Home Sound System from anywhere. Add a Pico remote for audio and enjoy control for your Sonos system on a tabletop or on your wall.
Schedule your front door and entry lights to turn on when someone rings the doorbell. Set patio lights to turn on when your Ring doorbell or camera detects motion.
Professional Integration Options
Control Concepts
kaleidescape
Cool Automation
HomeWorks QS with Connect App
The Lutron Connect Bridge creates a link between HomeWorks QS and the cloud, enabling control, integration, and monitoring of a HomeWorks QS system from a smartphone or tablet using the Lutron Connect app.
Schedule lights and blinds to adjust automatically at set times of day. Turn on landscape lights at sunset and turn them off at sunrise. Turn lights on to a soft level and slightly raise blinds every morning as you head into the kitchen for coffee.
The geofencing feature controls lights based on your location. Maybe you always leave the entryway lights on as you head out the door in the morning? Geofencing will turn them off for you once you’re out the door. It can also turn lights on for you when you come home.
Control lights, blinds and temperature in the comfort of your home or from anywhere in the world – the office, the airport, the beach – so lights aren’t left on or blinds aren’t left open when you’re away.
Low battery status alerts
Receive low battery status alerts for sensors, Triathlon blinds, and more, right from the app.
Expand your smart home system
Audio control.
Lutron Palladiom Thermostat
The Palladiom thermostat delivers an understated, elegant aesthetic throughout the home, and coordinates with Palladiom keypads and accessories.
Use Lutron keypads, in the space or through the Connect app, and timeclock events to control the Autonomic audio system. Change presets, adjust volume, enter party mode and store new presets all from these Lutron interfaces.
CasaTunes is a whole house audio system providing endless amounts of music including disc, networked and Internet music. The system is controlled using the CasaTunes Android and iOS apps or via integration with a Lutron system through button presses and timeclock events.
Control your Sonos Home Sound System in unison with your lights, blinds, and temperature from anywhere.
Bang & Olufsen
ELK Products
Key Digital
Remote Technologies Incorporated
Simple Control
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Lutron Homeworks
Lutron is an American lighting control company. The Lutron Homeworks Series 4 & 8 systems are relatively old (~2003), and use RS-232 connections to communicate with home automation systems. The homeworks integration in Home Assistant is responsible for communicating with the main controller for these systems. Communication is through an ethernet to serial converter (NPort, for example).
Only a subset of the Homeworks system is supported - lights and keypads.
Lutron has created many systems over the years, each with their own unique interfacing protocol. There are three Homeworks systems - QS, Series 4 & 8, and original. This platform is only for Series 4 & 8. There is another integration lutron which handles Lutron RadioRA 2 systems.
Homeworks keypad buttons are momentary switches. The button is pressed and released, meaning that there is no “state”. Buttons generate homeworks_button_press and homeworks_button_release events. These events contain the “id”, “name”, and “button” of the button that was pressed. “id” is derived from “name”, and “button” is the number of the button on the keypad (starting at 1). It’s also possible to add binary sensor entities which indicate if a keypad LED is lit and button entities which can be used to trigger the actions bound to a keypad button.
Configuration
To add the Lutron Homeworks integration to your Home Assistant instance, use this My button:
If the above My button doesn’t work, you can also perform the following steps manually:
Browse to your Home Assistant instance.
Go to Settings > Devices & Services .
In the bottom right corner, select the Add Integration button.
From the list, select Lutron Homeworks .
Follow the instructions on screen to complete the setup.
The protocol for automatically extracting device information from the controller isn’t documented. Lights and keypads need to be added manually. This is done by configuring the integration after it has been added.
Action send_command
Send a custom command to the Lutron Homeworks controller.
| Data attribute | Optional | Example | Description |
|---|---|---|---|
| No | The controller to which the command should be sent to. | ||
| No | The command you want to send. This can either be a single command or a list of commands. In addition to the , the special command is supported, where ms is the number of milliseconds to sleep. |
Sending a list of commands
The example shows how to send KBP , wait 0.5 seconds, then send KBR to simulate a keypad button keypress with a duration of a half second.
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Programming
System Design & Setup
Troubleshooting
Lutron's LEAP API Integration Protocol
Leap api integration, this article will cover the following topics:, what is leap.
- How does LEAP communication work?
- What products/companies integrate with RadioRA 3 via Lutron LEAP?
How do I use LEAP to integrate with other non-Lutron products/applications?
Lutron’s Extensible Application Protocol ( LEAP ) is the protocol by which many 3rd party systems communicate to the RadioRA 3 system. Think of it as an upgrade from the classic Telnet Protocol to a more advanced and secure 'language' for integration . While Telnet integration with other systems proved to be very capable and deployed on thousands of projects, technology in the industry has continued to advance in addition to the needs of the client. This is where LEAP comes in to play.
- Secure – Instead of just utilizing a username and password for security, LEAP uses a pairing process with the 3rd party device that requires both verification of physical access as well as certificate-based authentication over a Transport Layer Security (TLS) connection. This helps provide peace of mind for the client.
- Dynamic – As opposed to the Telnet integration with a static configuration file, created when the database was transferred into the system, LEAP is more dynamic and allows for configuration reads during setup or runtime, depending upon what is best for the 3rd party system. One thing that is certain, reading the Lutron configuration has never been easier for a 3rd party system. This all leads to a faster and easier deployment for the integrator and removing the need to ' recreate ' the list of devices in a system.
How does LEAP communication work?
what products/companies integrate with radiora 3 via lutron leap.
LEAP integration drivers are developed by the 3rd party system manufacturer in most cases. As a result, information on how to setup a specific 3rd party system will come from the 3rd party , often packaged in with the integration driver or the 3rd party software and dealer websites. Lutron works closely with these companies , providing development support and mutual testing of the drivers to ensure that the integration leads to a reliable and effective solution for both the integrator and homeowner.
For the latest list of companies that integrate with RadioRA 3, Click Here to visit our What's New page to view our Integration list.
Setting up LEAP integration is simple. Every RadioRA 3 system runs off of a configuration file that is created when the system is designed and commissioned. Every time you add a dimmer, switch, or keypad to the system you are adding to the configuration . As you add these devices , configure names for zones , and add engraving text all of this information is being stored in the configuration . This configuration feeds directly into the LEAP API . Essentially, as you build the system you are also setting up LEAP integration for the system.
Once the Lutron system is up and running, the integrator knowledgeable on the 3rd party system can work through the specific instructions required to connect the 3rd party system to the Lutron processor and pull in the various configuration information that is required for the specific integration.
Are you an Integrator looking to integrate your systems with ours via LEAP ? Please contact us at [email protected] for more details!
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Kemerovo Oblast—Kuzbass
DOI link for Kemerovo Oblast—Kuzbass
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Kemerovo Oblast—Kuzbass is situated in southern central Russia. Krasnoyarsk Krai and Khakasiya lie to the east, Tomsk Oblast to the north, Novosibirsk Oblast to the west, and Altai Krai and the Republic of Altai to the south-west. Kemerovo was founded in 1918 as Shcheglovsk. It became the administrative centre of the Oblast upon its formation on 26 January 1943. The city is at the centre of Russia’s principal coal mining area. In 1998 Tuleyev signed a framework agreement with the federal Government on the delimitation of powers, which was accompanied by 10 accords aimed at strengthening the regional economy. The Oblast’s main industrial centres are at Kemerovo, Novokuznetsk, Prokopyevsk, Kiselyovsk and Leninsk-Kuznetskii. Kemerovo Oblast’s agriculture consists mainly of potato and grain production, animal husbandry and beekeeping. The Oblast is the largest producer of coal among the federal subjects, and a principal producer of steel.
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Registered in England & Wales No. 3099067 5 Howick Place | London | SW1P 1WG © 2024 Informa UK Limited
Novokuznetsk
| Show map of Russia Show map of Kemerovo Oblast | |
| Coordinates: 87°08′E / 53.767°N 87.133°E / 53.767; 87.133 | |
| Country | |
| Founded | 1618 |
| City status since | 1689 |
| Government | |
| • Head | [ ] |
| Elevation | 190 m (620 ft) |
| Population ( Census) | |
| • Total | 547,904 |
| • Rank | in 2010 |
| • Subordinated to | Novokuznetsk |
| • of | , Novokuznetsk City Under Oblast Jurisdiction |
| • Urban okrug | Novokuznetsky Urban Okrug |
| • of | Novokuznetsky Urban Okrug, Novokuznetsky Municipal District |
| ( ) | |
| +7 3843 | |
| ID | 32731000001 |
| Website | |
Demographics
City administration, administrative and municipal status, administrative bodies, transportation, twin towns and sister cities, notable people, external links.
| Year | ||
|---|---|---|
| 1897 | 3,141 | — |
| 1926 | 3,894 | +24.0% |
| 1939 | 166,000 | +4163.0% |
| 1959 | 377,000 | +127.1% |
| 1970 | 499,183 | +32.4% |
| 1979 | 541,356 | +8.4% |
| 1989 | 599,947 | +10.8% |
| 2002 | 549,870 | −8.3% |
| 2010 | 547,904 | −0.4% |
| 2021 | 537,480 | −1.9% |
| Source: Census data | ||
It was previously known as Kuznetsk until 1931, and as Stalinsk until 1961.
Founded in 1618 by men from Tomsk as a Cossack ostrog (fort) on the Tom River , it was initially called Kuznetsky ostrog ( Кузне́цкий острог ). [2] It became the seat of Kuznetsky Uyezd in 1622. [3] Kuznetsk ( Кузне́цк ) was granted town status in 1689. [3] It was here that Fyodor Dostoevsky married his first wife, Maria Isayeva in 1857. [13] Joseph Stalin 's rapid industrialization of the Soviet Union transformed the sleepy town into a major coal mining and industrial center in the 1930s. It merged with Sad Gorod in 1931. From 1931 to 1932, the city was known as Novokuznetsk and between 1932 and 1961 as Stalinsk ( Ста́линск ), after Stalin. As a result of de-Stalinization , it was renamed back to Novokuznetsk .
As of the 2021 Census , the ethnic composition of Novokuznetsk was: [14]
Within the framework of administrative divisions , Novokuznetsk serves as the administrative center of Novokuznetsky District , even though it is not a part of it. [1] As an administrative division, it is incorporated separately as the Novokuznetsk City Under Oblast Jurisdiction —an administrative unit with the status equal to that of the districts . [15] As a municipal division , Novokuznetsk City Under Oblast Jurisdiction is incorporated as the Novokuznetsky Urban Okrug . [15] [16] The city consists of six non-municipal intra-city districts : [16]
On 7 December 2009, by a resolution of the Novokuznetsk City Council of People's Deputies, a new version of the City Charter was approved, [16] according to which the authorities consist of:
The Novokuznetsk City Council of People's Deputies is a representative body of power and consists of 18 deputies elected in 18 single-mandate constituencies and 18 deputies elected on party lists. The term of office of deputies is five years. In September 2021, elections were held for the Council of People's Deputies, following which the seats in the council were distributed as follows: 27 - United Russia , 2 - Liberal Democratic Party , 2 - A Just Russia , 2 - Communist Party . The representative of United Russia, Alexandra Shelkovnikova, was elected chairman. The Youth Parliament of the city operates under the City Council of People's Deputies. [19]  A whole network of bodies of territorial public self-government has been created in Novokuznetsk; [20] in total, 60 of them have been created in the city: in the Zavodskoy District - 7, Kuznetsky - 6, Kuibyshevsky - 13, [21] [22] [23] Novoilyinsky - 6, Ordzhonikidzevsky - 9, Central - 16.
Novokuznetsk is a heavily industrial city and is located in the heart of the Kuzbass region . Factories in the city include:
Metallurg Novokuznetsk is an ice hockey team based in Novokuznetsk. Formerly a member of the Kontinental Hockey League , the team is currently a member of the Supreme Hockey League . The football team of the same name was recently promoted to the Russian first division below the premier. RC Novokuznetsk compete in the Professional Rugby League , the highest division of rugby union in Russia. Florida Panthers goaltender Sergei Bobrovsky , Carolina Hurricanes defenseman Dmitry Orlov and Minnesota Wild winger Kirill Kaprizov were all born in Novokuznetsk and began their pro careers with Metallurg Novokuznetsk. Novokuznetsk is also the birthplace of US chess Grandmaster Gata Kamsky . The main airport is the Spichenkovo Airport . The city is also a major railway junction with both local and long-distance trains. Local public transport is provided by trams, buses, and trolleybuses.  Novokuznetsk has a fairly typical southwest Siberian humid continental climate ( Köppen climate classification : Dfb ) with warm summers during which most of the precipitation occurs, and severe, generally dry winters. Snowfall is very frequent during the winter, but its water content is generally very low due to the cold temperatures.
Novokuznetsk is twinned with:
 Related Research Articles Prokopyevsk is a city in Kemerovo Oblast, Russia. Population: 210,130 (2010 Russian census) ; 224,597 (2002 Census) ; 273,838 (1989 Soviet census) .  Mariinsk is a town in Kemerovo Oblast, Russia, where the Trans-Siberian Railway crosses the Kiya River, 180 kilometers (110 mi) northeast of Kemerovo, the administrative center of the oblast. Population: 40,526 (2010 Russian census) ; 42,977 (2002 Census) ; 40,956 (1989 Soviet census) ; 39,700 (1972).  Anzhero-Sudzhensk is a town in the Kuznetsk Basin in Kemerovo Oblast, Russia, located to the north of the oblast's administrative center of Kemerovo and to the east of the Tom River, on the route of the Trans-Siberian Railway. Population: 76,646 (2010 Russian census) ; 86,480 (2002 Census) ; 107,951 (1989 Soviet census) .  Leninsk-Kuznetsky , known as Kolchugino until 1925, is a city in Kemerovo Oblast, Russia, located on both banks of the Inya River. Population: 101,666 (2010 Russian census) ; 112,253 (2002 Census) ; 165,487 (1989 Soviet census) ; 128,000 (1972); 83,000 (1939); 20,000 (1926).  Guryevsky District is an administrative district (raion), one of the nineteen in Kemerovo Oblast, Russia. As a municipal division, it is incorporated as Guryevsky Municipal District . It is located in the west of the oblast and borders with Prokopyevsky, Belovsky, and Leninsk-Kuznetsky Districts of Kemerovo Oblast and with Altai Krai and Novosibirsk Oblast in the west. The area of the district is 2,180 square kilometers (840 sq mi). Its administrative center is the town of Guryevsk. Population: 10,617 (2010 Russian census) ; 12,057 ; 20,816 (1989 Soviet census) .  Yurga is a town in Kemerovo Oblast, Russia, located on the Tom River and the Trans-Siberian Railway. Population: 81,533 (2010 Russian census) ; 85,555 (2002 Census) ; 93,202 (1989 Soviet census) .  Tashtagol is a town in Kemerovo Oblast, Russia, located on the Kondoma River 511 kilometers (318 mi) south of Kemerovo, the administrative center of the oblast.  Topki is a town in Kemerovo Oblast, Russia, located 38 kilometers (24 mi) west of Kemerovo, the administrative center of the oblast. Population: 28,641 (2010 Russian census) ; 31,004 (2002 Census) ; 33,574 (1989 Soviet census) .  Beryozovsky is a town in Kemerovo Oblast, Russia, located between the Barzas and Shurap Rivers, 27 kilometers (17 mi) north of Kemerovo, the administrative center of the oblast. Population: 47,279 (2010 Russian census) ; 48,299 (2002 Census) ; 51,250 (1989 Soviet census) .  Belovsky District is an administrative district (raion), one of the nineteen in Kemerovo Oblast, Russia. As a municipal division, it is incorporated as Belovsky Municipal District . It is located in the center of the oblast. The area of the district is 3,400 square kilometers (1,300 sq mi). Its administrative center is the rural locality of Vishnevka. Population: 30,204 (2010 Russian census) ; 33,382 ; 25,815 (1989 Soviet census) .  Chebulinsky District is an administrative district (raion), one of the nineteen in Kemerovo Oblast, Russia. As a municipal division, it is incorporated as Chebulinsky Municipal District . It is located in the north of the oblast. The area of the district is 3,780 square kilometers (1,460 sq mi). Its administrative center is the urban locality of Verkh-Chebula. Population: 16,348 (2010 Russian census) ; 17,971 ; 17,723 (1989 Soviet census) . The population of Verkh-Chebula accounts for 31.0% of the district's total population.  Kemerovsky District is an administrative district (raion), one of the nineteen in Kemerovo Oblast, Russia. As a municipal division, it is incorporated as Kemerovsky Municipal District . It is located in the northern central portion of the oblast. The area of the district is 4,391 square kilometers (1,695 sq mi). Its administrative center is the city of Kemerovo. Population: 45,459 (2010 Russian census) ; 39,036 ; 37,207 (1989 Soviet census) .  Leninsk-Kuznetsky District is an administrative district (raion), one of the nineteen in Kemerovo Oblast, Russia. As a municipal division, it is incorporated as Leninsk-Kuznetsky Municipal District . It is located in the west of the oblast. The area of the district is 2,356 square kilometers (910 sq mi). Its administrative center is the city of Leninsk-Kuznetsky. Population: 23,760 (2010 Russian census) ; 27,825 ; 29,752 (1989 Soviet census) .  Novokuznetsky District is an administrative district (raion), one of the nineteen in Kemerovo Oblast, Russia. As a municipal division, it is incorporated as Novokuznetsky Municipal District . It is located in the center of the oblast and spans it from border to border in the southwest-northeast direction. The area of the district is 13,039.5989 square kilometers (5,034.6173 sq mi). Its administrative center is the city of Novokuznetsk. As of the 2010 Census, the total population of the district was 50,681.  Prokopyevsky District is an administrative district (raion), one of the nineteen in Kemerovo Oblast, Russia. As a municipal division, it is incorporated as Prokopyevsky Municipal District . It is located in the center of the oblast. The area of the district is 3,450 square kilometers (1,330 sq mi). Its administrative center is the city of Prokopyevsk. Population: 31,442 (2010 Russian census) ; 33,705 ; 35,657 (1989 Soviet census) .  Promyshlennovsky District is an administrative district (raion), one of the nineteen in Kemerovo Oblast, Russia. As a municipal division, it is incorporated as Promyshlennovsky Municipal District . It is located in the west of the oblast. The area of the district is 3,083 square kilometers (1,190 sq mi). Its administrative center is the urban locality of Promyshlennaya. Population: 50,106 (2010 Russian census) ; 50,125 ; 47,150 (1989 Soviet census) . The population of Promyshlennaya accounts for 36.0% of the district's total population.  Topkinsky District is an administrative district (raion), one of the nineteen in Kemerovo Oblast, Russia. As a municipal division, it is incorporated as Topkinsky Municipal District . It is located in the northwest of the oblast. The area of the district is 2,774 square kilometers (1,071 sq mi). Its administrative center is the town of Topki. Population: 16,246 (2010 Russian census) ; 18,077 ; 19,018 (1989 Soviet census) .  Tyazhinsky District is an administrative district (raion), one of the nineteen in Kemerovo Oblast, Russia. As a municipal division, it is incorporated as Tyazhinsky Municipal District . It is located in the northeast of the oblast. The area of the district is 3,531 square kilometers (1,363 sq mi). Its administrative center is the urban locality of Tyazhinsky. Population: 25,597 (2010 Russian census) ; 32,782 ; 32,574 (1989 Soviet census) . The population of the administrative center accounts for 43.4% of the district's total population.  Yurginsky District is an administrative district (raion), one of the nineteen in Kemerovo Oblast, Russia. As a municipal division, it is incorporated as Yurginsky Municipal District . It is located in the northwest of the oblast. The area of the district is 2,510 square kilometers (970 sq mi). Its administrative center is the town of Yurga. Population: 22,448 (2010 Russian census) ; 22,779 ; 22,994 (1989 Soviet census) . Krasnobrodsky is an urban locality in Kemerovo Oblast, Russia. Population: 11,919 (2010 Russian census) ; 11,859 (2002 Census) ; 12,663 (1989 Soviet census) .
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COMMENTS
Description. This command is used to reset all RS-232 port settings to the serial driver settings assigned to that port using the HomeWorks Interactive software. The settings effected are baud rate, handshaking type, number of data bits, parity type, number of stop bits, and the status of HomeWorks monitoring messages.
The Lutron integration protocol will allow third-party equipment, such as touch-screens, universal ... • Integration Access Points communicate with external systems using RS232, Ethernet or both . The Lutron integration protocol will allow third-party equipment, such as touch-screens, keypads, ... HomeWorks QS myRoom plus Athena ...
Overview. HomeWorks QS is a system capable of integrating with other equipment in many ways. In most instances this integration can be accomplished using TCP/IP and an Ethernet network, however, it is sometimes necessary to integrate with legacy devices utilizing RS-232 serial connections. HomeWorks QS does not include an on-board RS-232 port ...
Technical Specifications Technical Specifications HomeWorks Interactive processors require the use of a standard 9-pin DB9 serial cable for communications with external equipment. This cable must be a 9-wire, straight through cable, not a 3-wire cable. The available baud rates are 9600, 19200, 38400, 57600, and 115,200 baud.
"Check" the "Use RS232 terminator" and select "<LF> (0A)" and "<CR> (0D)" from the drop-down menu. Add the desired commands to the command set using the HomeWorks Illumination Protocol (attached). Create an instance of a 3rd-party device in the software. In the "design" tab, "define equipment" task, add a "Control 3rd party" device (may need to ...
For any jobs that need to support integration with HomeWorks Original, you can see the protocol guide attached to this post. Attached Files. HomeWorks Original Integration.PDF (175.9 KB, 136 views) Post Thanks / Like - 1 Thanks, 0 Likes, 0 Dislikes. vmay1483 thanked for this post. Quick Navigation 3rd-party Integration - Legacy HW Top.
HomeWorks Interactive Tips . ... Integration using RS-232. The HWI processor sends messages out of the 232 port whenever any system event occurs. These messages can be numerous during "all off" and "all on" and other major system events. If you are using a touchscreen or some other device with a slow RS-232 port, these messages can sometimes ...
HomeWorks 2 Button Multi-Function Keypad; HomeWorks Interface Keypad HWV-IP5; HomeWorks Vareo HWV-600D, HWV-1000D, HWV-1000S Single pole / 3-Way; HomeWorks Vareo HWV-1000NS; HomeWorks RS-232 Data Protocol; HomeWorks Vareo Fluorescent HWV-FDB-8A
HomeWorks. Product Description Document Title Download(s) Protocol Guide: Lutron QS Integration Protocols: English (pdf) Back to top For more information, please submit a request for product literature, or contact a Customer service representative. You can also call us at +44(0)207.702.0657.
Hi looking for raw commands for dim high and low I,m doing in rs232 coz I can't use the IP driver due to network restriction unable to connect to RTI. This is the sample commands that work for on and off #DEVICE,9,401,7,1\r\n Thanks The setup I have QSE-CI-NWK-E, QSNE-2DALI-D, and QSE-CI-AP-D. Thank you for your post Alfred.
The QSX processor for HomeWorks creates a link between your HomeWorks system and the cloud, enabling control, integration, and monitoring of a HomeWorks system from a smartphone or tablet using the Lutron app. This app allows you to control all your homes from one convenient location, whether they have HomeWorks or RA2 Select.
a HomeWorks Keypad. Interface the system with other equipment using contact closure inputs and outputs, infrared inputs, and RS-232 serial communication. CONDITIONAL LOGIC HomeWorks provides the capability to activate events only if specific conditions are met. For example, program driveway sensors to turn on exterior lighting only if it is dark.
How to use Lutron Homeworks Series 4 & 8 with Home Assistant. 2024.8.2 Getting started ... is an American lighting control company. The Lutron Homeworks Series 4 & 8 systems are relatively old (~2003), and use RS-232 connections to communicate with home automation systems. ... each with their own unique interfacing protocol. There are three ...
Lutron's Extensible Application Protocol (LEAP) is the protocol by which many 3rd party systems communicate to the RadioRA 3 system. Think of it as an upgrade from the classic Telnet Protocol to a more advanced and secure 'language' for integration. While Telnet integration with other systems proved to be very capable and deployed on ...
Sorry for necro'ing, but I was wondering if you had any tips for how to access this telnet interface. I have a Lutron Homeworks 8 series, not a QS, but I was under the impression that it still has a telnet interface, but with different commands from the RS232 Protocol guide. I can't figure out how to get a connection to my Lutron Homeworks 8 ...
Caseta and RA2 Select are meant to be dealer and / or consumer installed and set up. RA2 does have a program to allow consumer access to software, but is mostly dealer programmed. Homeworks QS / QSX is dealer access only. Dealers are required to take extensive training to understand what you can do with this system.
highest quality standards. All HomeWorks ® systems are covered by an 8-year limited warranty. Lutron was one of the first 20 companies in the US to earn the ISO 9001 international quality certification, and today Lutron is ISO 9001:2000 certified. FAIL-SAFE OPERATION HomeWorks local lighting controls and GRAFIK Eye ®
Tsiolkovskogo Street, 9, Novokuznetsk, Kemerovo — Kuzbass Region, 654041. Coordinates:. 53.745579, 87.127878
Kemerovo Oblast—Kuzbass is situated in southern central Russia. Krasnoyarsk Krai and Khakasiya lie to the east, Tomsk Oblast to the north, Novosibirsk Oblast to the west, and Altai Krai and the Republic of Altai to the south-west.
Kemerovo Oblast — Kuzbass, also known simply as Kemerovo Oblast (Russian: Ке́меровская о́бласть) or Kuzbass (Кузба́сс), after the Kuznetsk Basin, is a federal subject of Russia (an oblast). Kemerovo is the administrative center and largest city of the oblast. Kemerovo Oblast is one of Russia's most urbanized regions, with over 70% of the population living in its ...
Main Repeater - This is the basic RadioRA 2 controller and will be the main RadioRA 2 component connected to any network. Each RadioRA 2 Main Repeater has one RJ45 female connector for the RadioRA 2 LAN/VLAN. HWQS - Abbreviation of HomeWorks QS. RA2 - Abbreviation of RadioRA 2. Processor - May refer to either/both the HomeWorks QS ...
History. Founded in 1618 by men from Tomsk as a Cossack ostrog (fort) on the Tom River, it was initially called Kuznetsky ostrog (Кузне́цкий острог). [2] It became the seat of Kuznetsky Uyezd in 1622. [3] Kuznetsk (Кузне́цк) was granted town status in 1689. [3] It was here that Fyodor Dostoevsky married his first wife, Maria Isayeva in 1857. [13]
The length of RS-232 cable that runs from a HomeWorks™ panel to a PC is limited to 50 feet. While it is possible to simply connect cables in excess of this amount, the reliability of the communications is greatly reduced. In order to allow greater distances between RS-232 connections, it is necessary to convert the RS-232 protocol to