Installation/Owner’s Manual PC Programmable Telephone Entry and Access Control Systems 1835-065-E-7-13 Wa Flu sh ll M ou Su rfa Mo ce un nt Mo t un t 1837 Weigand Compatable SP 1 GH AB C 2 I 4 DE 5 7 6 8 1 GH I 4 PQ RS 7 C 2 JKL 5 TUV 8 OP ER 0 DE 9 F 3 A Z MN O 6 WX YZ 9 CA LL 18 WX YZ ER 0 AB A Z MN O TUV OP F 3 JKL PQ RS SP SP 1 6 WX YZ 9 ER 0 CA 18 -08 Flu sh ou -08 0 Su rfa Mo ce un nt LL 37 4 ll M A Z MN O
SPECIFICATIONS 1833, 1834, 1835 and 1837 Telephone Entry Systems, REV C or Higher. TE TE LE PH ON LE EE NT TE 2 4 JK L PQ RS 7 OP ER 5 TU V U se AT IN Nam “ A G Name anto Z INS T d ” To es ar CodeB u tt RU CT o KeyC a ll e In Num n s , to ION Linepad E n te Alphaber S Lo or r C be on D ca te H is 3. ang BusyPress o d tica ispl En Up. , Pr “C e N l O ay. rd u te r on Try ess all” m b er. e Ope Aga “#” But r o n D in. or “Cton. n all” If ispl ay to an d To ne . Su M AB C GH I 2.
TABLE OF CONTENTS SPECIFICATIONS Important Notices FCC - United States, DOC - Canada General Information Installation Guidelines and Safety Information 1 4 5 SECTION 1 - INSTALLATION 6 1.1 General Installation 1.1.1 1.2.1 Remove Components from Enclosure Install Enclosure 1.2 Surface Mount Dimensions 1.2.1 Surface Mount Recess Kit Dimensions and Installation 1.3 Flush Mount Dimensions 1.3.1 1.3.
TABLE OF CONTENTS System Keypad Programming when NOT using a PC 3.5 Programming Phone Numbers and Names 3.5.1 3.5.2 3.5.3 3.5.4 3.5.5 3.5.6 3.5.7 3.5.8 3.5.9 3.5.10 3.5.
Important Notices FCC – United States This equipment has been tested and found to comply with the limits for a class A digital device, pursuant to Part 15 of the FCC Rules and Regulations. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment.
General Information • Prior to beginning the installation of the telephone entry system, we suggest that you become familiar with the instructions, illustrations, and wiring guidelines in this manual. This will help insure that you installation is performed in an efficient and professional manner. • The proper installation of the telephone entry panel is an extremely important and integral part of the overall access control system.
SECTION 1 - INSTALLATION Prior to installing the telephone entry system, we suggest that you become familiar with the instructions, illustrations, and wiring guidelines in this manual. This will help insure that you installation is performed in an efficient and professional manner. Order your telephone line to be installed at least two weeks prior to the planned telephone entry system installation date. This will assure that a phone line is available when the unit is installed.
1.1.1 Remove Components from Enclosure Discharge any static BEFORE removing the circuit board by touching a proper ground device. There are 3 different styles of the 1830 telephone entry system - surface, flush and wall mount. Components in the flush and wall mounts will vary a little from this. Cir cui tB 1. Disconnect the two ribbon cables from the circuit board (Only one ribbon cable in some models). oar dS cre w 2. Remove the two screws from the upper corners of the circuit board. 3.
1.1.2 Install Enclosure There are 3 different styles of the 1830 telephone entry system surface, flush and wall mount. The illustrations below show typical installations but specific installations can vary from this. Mount ON a Surface (See sections 1.2, 1.3.2 and 1.4). 1. Mount the enclosure using the mounting holes provided in the corners (see sections 1.2, 1.3 and 1.4 for your chosen model dimensions including kit installations).
1.2 Surface Mount Dimensions Surface mount units can be mounted directly to a wall, pilaster, post mounted using a DoorKing architectural style mounting post (P/N 1200-037 and 1200-038) or recessed in a wall (see next page) with the surface mount recess kit (P/N 1803-150). Be sure the unit is mounted securely and is not subject to vibration from closing doors or gates.
1.2.1 Surface Mount Recess Kit Dimensions and Installation Surface mount units can be recessed into a wall or pilaster by using the optional surface mount recess kit (P/N 1803-150). This allows for a recessed telephone entry system to have a lighted keypad (except for the 1833) which the flush mount units DO NOT have. The recess box gets installed in the wall. Use appropriate hardware (not included) to secure the box in the wall. Run all necessary conduit (not included) to the recess box.
1.3 Flush Mount Dimensions Flush mount units are installed into a wall with a flush mount kit P/N 1814-165 (stainless) or 1814-166 (gold). Flush mount kits are NOT INCLUDED with the flush mount entry system (See next page for flush mount kit dimensions). The flush mount units may also be installed on the surface of a wall with a surface mounting kit if desired P/N 1814-152 (silver only).
1.3.1 Flush Mount Kit Dimensions and Installation The flush mount installation kit has two parts; the rough-in box and the trim ring. The rough-in box is installed in the wall first. Use appropriate hardware (not included) to secure the box in the wall. Run all necessary conduit (not included) to rough-in box. Slide the trim ring into the rough-in box. Slide the enclosure in the trim ring and secure them all together with the hardware included in the kit.
1.3.2 Flush Mount Surface Mounting Kit Dimensions and Installation Flush mount unit (See page 11 for flush mount enclosure dimensions) can be mounted ON a wall or pilaster and NOT IN the wall by using the optional flush mount surface mounting kit (P/N 1814-172). This is useful when cutting a large hole into a wall or pilaster would be very difficult (marble or granite for example) .The flush mount surface mounting kit is a trim ring that fits around the flush mount enclosure.
1.4 Wall Mount Dimensions Wall mount units are designed to be mounted directly onto a wall without the need of cutting a large hole as is necessary with flush mount units. Be sure the unit is mounted securely and is not subject to vibration from closing doors or gates.
1.5 Memory Chip Replacement The telephone entry system is shipped with the memory chips already installed in the unit. However, if you need to replace the memory chips (to match an older unit, for example), follow the instructions below. See 3.1.3 Memory Chip Identification for information about the memory chips in your specific telephone entry system. CAUTION Power MUST be OFF to the Circuit Board!! DO NOT install the memory chips with power to the telephone entry system turned ON.
1.6 Postal Lock Installation At some locations, such as gated communities, it will be necessary to provide access to the mail carrier so that they can deliver the mail. Mail carrier access will be provided by the installation of an Arrow Postal Lock. This is the same lock that the Post Office uses for gang mailboxes. These locks are not available to the public.
SECTION 2 - WIRING Prior to installing wiring to the telephone entry system, we suggest that you become familiar with the instructions, illustrations, and wiring guidelines in this manual. This will help insure that you installation is performed in an efficient and professional manner. The wiring of the telephone entry panel is an extremely important and integral part of the overall access control system.
2.1.3 Grounding Proper grounding of this system is a requirement. To be effective, ground connections should be made with a minimum 12 AWG, 600 volt insulated wire to a ground point within 10 feet of the telephone entry system. The ground point must be at an electrical panel, a metallic cold water pipe that runs in the earth, or a stainless steel grounding rod driven at least ten (10) feet into the soil. A architectural style mounting post anchored to concrete does NOT make a good ground.
NC 2.2 Terminal Descriptions NO See section 4 on page 46 for the locations of the terminals on the circuit board. Relay 2 Note: Normally Open and Normally Closed relay jumper is used to set Relay 2 input on the circuit board (See section 4.7). Main Terminal CGND PSW MIC COM SPKR IMD 5VDC IMC 13 14 15 16 17 18 Relay 1 Common – 30 Volt, 3 Amp max. Relay 1 Normally Closed – 30 Volt, 3 Amp max. Relay 1 Normally Open – 30 Volt, 3 Amp max. Back-up Battery POSITIVE For Phone System Only.
2.3 Telephone Entry System Wiring 2.3.1 ALL Telephone Entry Systems - NO Expansion Boards 19 20 - DATA - 1 21 - DATA - 0 22 - COMMON RS 232 1 2 3 4 5 6 23 24 25 26 27 ELEVATOR RS-232 Elevator Control Terminal 1833, 1835 and 1837 ONLY 28 Elevator Control terminal is NOT available for 1834. 29 30 31 1 32 2 33 3 34 “Optional” Elevator Control Board Required for Elevator Control (Left terminal on elevator control board) Power for relays on elevator control board is NOT provided by the system.
2.3.2 Wiring Up to 8 Expansion Boards - 1833, 1835 and 1837 Systems Wiring these telephone entry systems are the same as section 2.3.1 EXCEPT for the expansion board connection. Up to 8 boards can be wired to the circuit board’s Aux Terminal #7 thru #9 instead of a weigand input device. To connect more than 8 expansions boards, see section 2.3.3 on the next page. All expansion boards must have their own power source.
2.3.3 Wiring 9 to 16 Expansion Boards - 1833, 1835 and 1837 Systems Wiring these telephone entry systems are the same as section 2.3.1 EXCEPT for the expansion board connection. From 9 to 16 boards can be wired. The FIRST 8 boards MUST connect from #7 thru #9 on the aux terminal. Boards 9 to 16 MUST connect from #11 thru #13 on the aux terminal. All expansion boards MUST have their own power source. See the Expansion Board Manual 2351-065 for further information BEFORE wiring expansion boards.
2.4 PC Connection Options Connecting the telephone entry system to a PC may be accomplished by SEVEN (7) different methods in this section. 2.4.1 Phone Modem Connection Use your EXISTING modem to connect your PC to the entry system. Phone modem can ONLY connect to one entry system at a time.
2.4.4 RS-232 Terminal using Wireless Connection Requires TCP/IP Converter Kit (DoorKing P/N 1830-175) and Wireless Adapter Kit (DoorKing P/N 1815-510 - 1 Remote, P/N 1815-511 - 2 Remotes, P/N 1815-512 - 3 Remotes). Managing to up to three entry systems with your PC. 24 VDC Power SO INS FTW TA AR LL E ED 24 VDC Power Cat-5 Cable Wired or Wireless Your PC Home (Administrator) 1000 ft Max.
SECTION 3 - PROGRAMMING We strongly suggest that you read these programming instructions in their entirety before beginning any programming of this telephone entry system. IMPORTANT! Many of the advanced features available with this telephone entry system CANNOT be programmed from the system keypad. These advanced features include relay hold open time zones, security levels, elevator control options and programming via the internet using DKS servers.
3.1.3 System Memory Chip Identification 0000010100010 THIS SIDE UP 1835 sn XX Beginning in January, 2010, all DKS 1830 series telephone entry systems come standard with 3000 memory (APB - anti-pass back) chips installed in the system. The information below is to assist you with programming older systems or when there is a need to change the memory chips to match a chip set on another system already installed.
3.2.2 Number of Area Codes Allowed This programming step sets the system to allow either “up to 10” or “up to 255” alternate area codes (AAC) to be programmed into the system. The factory default is set to 10 area codes. Therefore, if you require 10 (or less) area codes, this step can be skipped. 255 area codes are available on REV E and higher circuit boards. REV D and lower boards have 10 area codes only; therefore this programming step is not required on systems with these circuit boards.
3.2.6 RS-232 Speed Setting The following programming sequence sets an optional faster RS-232 speed. This feature is available on Rev M boards or higher and the Remote Account Manager Software, Version 6.3.b, must be used. Factory setting = 0 (9600 baud rate) TUV 1. Press 8 JKL 5 and enter your four-digit MASTER CODE ? ? ? SP OPER 2. Enter 0 for 9600 baud rate or 1 for 19200 baud rate, then press OPER 3. Press 0 ? (beep). (beep). together to end this programming sequence (beeeeeep). 3.2.
Overview for System Keypad Programming Page # Section Command Factory Setting Section 3.2 Setup Entry System for PC Programming Master Code Number of Area Codes Allowed Call-Up Operation, Interfacing with DKS 1816 or 1820 Systems Only Resident Elevator Button Relay Time Open Tone ON or OFF RS-232 Speed Setting Switch Input Feature Elevator Control Feature Single or Multiple Systems 26 27 27 27 27 28 28 28 28 3.2.1 3.2.2 3.2.3 3.2.4 3.2.5 3.2.6 3.2.7 3.2.8 3.2.
3.3 General Programming Using the System Keypad SP ABC 1 2 GHI 4 PQRS 7 DEF 3 JKL MNO TUV WXYZ 5 8 6 9 OPER 0 Proceed with the programming steps on the following pages ONLY IF PC programming WILL NOT be used. The system keypad may be used to program some features on the telephone entry system but can be a little tedious to use. We strongly suggest that you become familiar with the programming steps in each feature you want to use BEFORE actually programming the system.
3.3.3 Tone Open Numbers These steps will program the tone open numbers for Relays 0, 1 and 2. You will need to enter a four-digit number (see chart below) to set the relay functions. If a function is not desired, enter # in place of a number. If Expansion boards are connected to the system, there is no need to set a momentary open tone open number for the Expansion control relay(s).
3.3.5 Touch-Tone / Rotary-Dial This programming sequence will set the telephone entry system to dial out in either a touch-tone or rotary format. Generally, this will be set for touch-tone. Factory setting = touch-tone. OPER 1. Press 0 OPER PQRS 7 and enter your four-digit MASTER CODE ? SP 2. Press 0 (beep) for touch-tone, OR 1 OPER 3. Press 0 ? ? ? (beep). (beep) for Rotary together to end this programming sequence (beeeeeep). 3.3.
3.4 Programming Letters, Numbers and Messages Press... ABC 2 ABC ABC ABC ABC 2 2 2 2 ABC 2 DEF 3 DEF DEF DEF DEF 3 3 ...To Display These programming steps apply only to the 1834, 1835 and A 1837 systems with an LCD display. The keypad on these telephone entry systems have all the letters of the alphabet, the B numbers 0 through 9, and a space key printed on it. This allows C the keypad to be used to program all names and numbers into the systems electronic directory.
3.4.2 Programming the User Message – 1834, 1835 Systems The user message, followed by the instruction message, scrolls across the screen from right to left when the system is not in use. Both the user and instruction message can be programmed to display your own message. The user message can be a maximum of 48 characters (spaces count as a character) and is entered into the system memory in three blocks. The first two blocks contain 20 characters while the third block contains 8 characters.
3.4.3 Programming the Instruction Message – 1834, 1835 Systems The instruction message scrolls across the screen from right to left when the system is not in use and follows the user message programmed in 3.4.2. The instruction message can be a maximum of 52 characters (spaces count as a character) and is entered into the system memory in three blocks. The first two blocks contain 20 characters while the third block contains 12 characters.
3.4.4 Programming the User Message – 1837 System The user message is displayed on the top four lines of the 1837 display. This message can be a maximum of 80 characters (spaces count as a character) and is entered into the system memory in four blocks. The example below shows how the sample message was divided into four blocks and centered on the screen. Use the blank table to organize your own message. Only upper case letters, numbers and spaces can be programmed from the system keypad.
3.4.5 Programming the Instruction Message – 1837 System The instruction message is displayed on the bottom four lines of the 1837 display. This message can be a maximum of 80 characters (spaces count as a character) and is entered into the system memory in four blocks. The example below shows how the sample message was divided into four blocks and centered on the screen. Use the blank table to organize your own message. Only upper case letters, numbers and spaces can be programmed from the system keypad.
3.5 Programming Phone Numbers and Names Before beginning manual programming of phone numbers and names from the system keypad, it is strongly recommended that the resident log sheets in the back of this manual be competed in their entirety. This will make programming easier and can be used as a reference when entering phone numbers, names, entry codes and device numbers.
3.5.1 Programming the Directory Code Length This programming sequence sets the directory code length to 1 - 2 - 3 or 4 digits. When 10 to 99 resident names or telephone numbers are going to be programmed, the directory code must be at least two-digits, but can be 3 or 4 digits. When 100 to 999 resident names or telephone numbers are going to be programmed, the directory code must be at least three-digits, but can be 4 digits.
3.5.3 Programming Area Codes Program area codes when 10-digit or long distance calling is required. “Up to 10” OR “up to 255” area codes can be programmed depending on how the system was programmed in section 3.2.2. • Area code pointers set for “up to 10” area codes are referenced 0 – 9 in step 2 (for a total of 10). • Area code pointers set for “up to 255” area codes are referenced 000 – 254 in step 2A (for a total of 255).
3.5.5 Programming Names - 1834, 1835 and 1837 Systems Only In this section, names will be programmed into the system. Names are referenced to a phone number by entering the directory code that the person’s phone number has been programmed to. MNO 1. Press 6 MNO 6 and enter your four-digit MASTER CODE ? ? ? ? (beep). 2. Enter the existing directory code (section 3.5.2 or 3.5.4) that the name will be assigned to (1, 2, 3 or 4 digits, section 3.5.1), then press (beep). 3.
3.5.8 Delete Area Codes This program sequence deletes area code numbers that have been programmed into the system. Refer to section 3.2.2. for programming on step 2 or 2A. ABC 1. Press 2 GHI 4 and enter your four-digit MASTER CODE ? ? ? ? (beep). “Up to 10” programmed, LCD display on the 1834, 1835 and 1837 systems will read: 0 – 9 AAC POINTER “Up to 255” programmed, LCD display on the 1834, 1835 and 1837 systems will read: 000 – 254 AAC POINTER 2.
3.6 Programming Device Codes - 1833, 1835, 1837 Only Device codes MUST be five (5) digits in length and are typically used for a remote Weigand card reader or transmitter devices. Each device code that you enter must be assigned to a directory code that you select (that was programmed in section 3.5.2). Up to 25 device codes can be entered under a single directory code, up to a maximum of 8,000 total device codes for the entry system. You cannot duplicate device codes. 3.6.
3.7 Programming Four-Digit Entry Codes Four-digit entry codes are entered ONLY on the Telephone Entry System Keypad preceded by “ # ” to allow the resident access. DO NOT confuse a FOUR-digit ENTRY code with a FIVE-digit DEVICE code that is entered on a remote weigand keypad (see previous page). Each entry code that you enter must be assigned to a directory code that you select (that was programmed in section 3.5.2). Only ONE entry code can be programmed for each directory code.
3.8 Anti-Pass Back The programming steps below will allow you to set up and program some basic functions for the anti-pass back feature (APB). However, you must set up the IN and OUT relay programming table in the Remote Account Manager software. Anti-Pass Back tables cannot be set from the system keypad. Refer to “Remote account manager for windows” manual 1835-066. 3.8.1 Programming the Anti-Pass Back Mode Anti-Pass Back (APB) can be set to operate in one of three different modes.
SECTION 4 - ADJUSTMENTS 1830 Series Circuit Board RS 232 RS-232 Terminal (see section 2.4.2) ELEVATOR 1 2 MIC VOL 3 2 1 3 2 1 SPK VOL Feedback (see section 4.1) 1816 3 2 1 Click Sensitivity (see section 4.2) 1 2 3 4 5 FEED BACK 1816 Interface Jumper (see section 4.8) Memory Chips (see sections 1.5 and 3.1.3) 6 7 8 9 10 11 12 13 14 sn XX 1835 Speaker Volume (see section 4.1) 0000010100010 Microphone Volume (see section 4.
4.1 Speaker Volume, Microphone and Feedback Speaker volume, microphone volume and feedback all interact with each other to affect the audio performance of the system. 1. Locate the speaker volume, microphone volume and feedback adjustments on circuit board (see previous page). SPK 2. Set the speaker volume about 1/3 from full counter-clockwise. VOL 3. Set the microphone volume to 1/2. MIC 4. Place a phone call from the telephone entry system to a resident.
4.5 Master Code Switch The master code switch MUST be kept in the OFF position for normal operation. Turn the master code ON TER switch ON only when programming the system’s master code. See section 3.2.1 to program the system’s S MADE O C OF F master code. If the master code switch is turned ON and a new master code is NOT entered, the system will sound a long tone after approximately 30 seconds.
SECTION 5 - SYSTEM OPERATING INSTRUCTIONS Sy ste 5.1 Guest Instructions m Ke ypa TE d Ins LE Operating Instructions are printed on most of the telephone entry systems. The systems with LCD displays have a scrolling or static Instruction Message on how to operate the system (locating and calling the resident that they wish to visit). The 1834, 1835 and 1837 systems utilize “A” and “Z” scroll buttons that a guest will use to locate the resident that they are wishing to visit.
5.2 Resident Instructions Resident control of the door or gate that the telephone entry system controls is limited to opening the door or gate in response to a call from a guest, or they may open the door or gate by using their assigned four-digit entry code. A resident instruction sheet is included in the back of this manual and may be copied and passed out to your residents. 5.2.
5.3 System Administrator The administrator can perform the following operations from a remote location using a touch tone telephone. You must know the phone number of the system and the system master code. The system MUST be setup to accept incoming calls, see sections 3.1 and 4.6. 5.3.1 Connecting to the Telephone Entry System from a Remote Location 1. Call the telephone number that the entry system is installed on. The system will answer with a short tone (beep) after two rings. 2.
5.4 Miscellaneous Operating Instructions 5.4.1 Talk Time The talk time for directory codes 0, 00, 000, 0000 and 1, 01, 001, 0001 is factory set to 4 minutes 15 seconds and cannot be changed. These directory codes should be reserved for use with management or emergency phone numbers that typically require longer talk times.
SECTION 6 - MAINTENANCE The DoorKing telephone entry system is essentially a maintenance free device. When the unit is properly installed, it should provide years of trouble free service. Maintenance is limited to updating the directory and phone number and/or entry codes when residents move in or out. The faceplate of the unit should be cleaned on a regular basis to keep contaminants in the air from sticking to the surface and possibly causing pitting.
Symptom Buzz or noise on the phone line. • Disconnect the phone line from the system and check it with a handset. If line is noisy, problem is with the phone line and not the entry system. • Check for any shorts to ground behind the circuit board. • Check for pinched wires near the door hinge. • Check for 16-volt power shorted to ground. • Check for phone line shorted to ground. • Check that phone wires are twisted.
6.1.1 RS-232 Test This test procedure will check the RS-232 hardware to determine a PASS or FAIL mode. You will need two short pieces of wire to perform this test (jumpers). Connect the jumper wires as shown to the RS-232 terminal. SP 1. Press 1 2. Press PQRS 7 RS-232 Terminal 1 2 3 4 5 6 Red Black White Brown Green Shield RS-232 DB-9 Pin Plug The 6-pin terminal can be removed for easy wiring. and enter your four-digit MASTER CODE ? ? ? ? (beep). (beep).
6.1.4 Elevator Board / Floor Hardware Test - 1835 and 1837 Systems Only This testing sequence will allow you to check activation of individual relays on the elevator control board(s) and will confirm communication between the telephone entry system circuit board and the elevator control board(s). PQRS 1. Press 7 PQRS 7 and enter your four-digit MASTER CODE ? ? ? ? (beep). The LCD display will show: WHICH ELEVATOR? 2. Enter the elevator shaft number (1, 2, 3 or 4) _, then press (beep).
6.2 Accessories Surface Mount Recess Kit Use to recess a surface mount unit into a wall or column. P/N 1803-150. Flush Mount Kit Use to install flush style units into a wall or column. Kit includes rough-in back box and trim-ring. P/N 1814-165 comes with stainless steel trim ring. P/N 1814-166 comes with gold plated trim ring. Flush Mount Surface Mounting Kit Use to surface mount a flush style unit. P/N 1814-152. Stainless Steel Case Replaces the black steel surface mount case with a stainless steel case.
1833 Wiring Schematic: Surface - Flush DOORKING 1833-010 RS 232 ELEVATOR 1 2 3 6 7 8 9 10 11 12 13 14 P2 MIC VOL 3 2 1 3 2 1 SPK VOL FEED BACK 5 3 2 1 P5 NO Keypad NO NC RING PHONE Ground CGND PSW MIC COM SPKR IMD 5VDC IMC Z A RELAY-1 ON MASTER CODE OFF KEYPAD RELAY-2 RELAY-0 1 2 3 4 CLK SEN NC C 2C 2RY 1C 1NC 1NO BAT 16AC 16AC 1998-010 Green Phone Line Green White White Blue Red Microphone Postal Lock Switch Purple White Gray 2356-010 2356-010 LED Front Panel L
1834 Wiring Schematic: Surface - Flush - Wall DOORKING 1834-010 RS 232 DOORKING 1896-019 DOORKING 1892-010 SINGLE LINE DISPLAY LCD Connector BACKLITE CUTTOFF 3 2 1 8 LINE DISPLAY CONTRAST LCD Display (Wall) CONTRAST DOORKING 1891-010 MIC VOL 3 2 1 LCD Display (Surface, Flush) 3 2 1 SPK VOL FEED BACK 3 2 1 CLK SEN ON MASTER CODE OFF KEYPAD NO RELAY-1 RELAY-2 P2 NC RING PHONE Ground CGND PSW MIC COM SPKR IMD 5VDC IMC Z A 2C 2RY 1C 1NC 1NO BAT 16AC 16AC 1998-010 Keypad Green
1835 Wiring Schematic: Surface - Flush - Wall DOORKING 1835-010 RS 232 DOORKING 1896-019 DOORKING 1892-010 SINGLE LINE DISPLAY LCD Connector BACKLITE CUTOFF 3 2 1 8 LINE DISPLAY CONTRAST LCD Display (Wall) CONTRAST ELEVATOR 1 2 3 DOORKING 1891-010 6 7 8 9 10 11 12 13 14 P2 MIC VOL 3 2 1 FEED BACK LCD Display (Surface, Flush) DOORKING 1491-010 3 2 1 SPK VOL 1 2 3 4 5 3 2 1 P5 NO NO NC RING PHONE Ground CGND PSW MIC COM SPKR IMD 5VDC IMC Z A RELAY-1 ON MASTER CODE OFF KEYPAD
1837 Wiring Schematic: Surface - Flush - Wall DOORKING 1837-010 RS 232 3 2 1 ELEVATOR DOORKING 1892-010 DOORKING 1896-012 BACKLITE CUTOFF SINGLE LINE DISPLAY 1 2 3 8 LINE DISPLAY CONTRAST CONTRAST 6 7 8 9 10 11 12 13 14 P2 MIC VOL 3 2 1 LCD Display DOORKING 1491-010 3 2 1 SPK VOL FEED BACK 1 2 3 4 5 3 2 1 P5 NO NO NC RING Keypad PHONE Ground CGND PSW MIC COM SPKR IMD 5VDC IMC Z A RELAY-1 ON MASTER CODE OFF KEYPAD RELAY-2 RELAY-0 CLK SEN NC C 2C 2RY 1C 1NC 1NO BAT 16AC
SECTION 7 - LOG TABLES Complete the information in the tables on the following pages to maintain a record of the information that has been programmed into the telephone entry system if the system IS NOT being programmed from a PC. If PC programming is being utilized, there is no reason to maintain these log sheets since the PC will maintain a complete record of the information that has been programmed.
7.1.2 255 Area Codes - Page 1 Area Code Pointers - System Set to 255 Area Codes (section 3.5.
7.1.2 255 Area Codes - Page 2 Area Code Pointers - System Set to 255 Area Codes (section 3.5.
7.2 Resident Information Make additional copies of this table as needed.
7.2 Resident Information Make additional copies of this table as needed.
RESIDENT INSTRUCTIONS Your building / community has been equipped with a DoorKing Telephone Entry System that will provide communication for your guest from the lobby door / gated entrance to your home by use of the local telephone network.
Installation/Owner’s Manual PC Programmable Telephone Entry and Access Control Systems 1835-065-E-7-13 TM www.doorking.com UL Listed 68 DoorKing, Inc. 120 Glasgow Avenue Inglewood, California 90301 U.S.A.
