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bolid S2000-2 User Manual

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ACCESS CONTROLLER
S2000-2
User's Manual

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  • Page 1 ACCESS CONTROLLER S2000-2 User’s Manual...
  • Page 2 WARNING: To change configuration parameters of the controller please use UProg.exe software utility of versions 4.1.0.54 and higher. DO NOT use UProg.exe of versions 4.0.0.821 and below...

  • Page 3: Table Of Contents

    7 Transportation .......................... 78 8 Certificates ..........................78 9 Manufacturer Data........................79 Appendix A Overall and Mounting Dimensions of the S2000-2 Controller ......80 Appendix B PCB Layout ......................81 Appendix C The Schematics for Connecting Readers to the S2000-2 Controller ....82...

  • Page 4: Description And Operation

    This User’s Manual is intended to help for studying operability principles and maintenance of S2000-2 Access Controller of version 2.20. The S2000-2 Access Controller (hereinafter referred to as the controller) is designed to control access through a single or two access points by reading the codes of presented credentials (Proximity cards, iButtons, PINs), verifying access rights, and closing (opening) the contacts of relays operating locking devices (electromechanical or magnetic locks or electric strikes, turnstiles, boom barriers).

  • Page 5: Specifications

    1.2 Specifications 1.2.1 The controller is to be powered by an external dc power supply with 12 V rated voltage (10.2 V to 15.0 V). Battery backed power supplies of RIP-12 series manufactured by the Bolid Company are recommended for use.
  • Page 6 − "Access Denied" – Access is denied for the presented registered credential; − "Wrong Code" – An unknown credential is presented to a reader when there is no communications between the S2000-2 and the network controller (the message is stored in the S2000-2 memory);...
  • Page 7 1.2.13 If a temporary communication loss happens to be during generating of a message then the messages are stored within the S2000-2 nonvolatile memory (EEPROM). Then, when RS-485 communications are restored, the stored messages are transmitted to the network controller along with actual event data and time in accordance with the internal S2000-2 clock.

  • Page 8: Standard Delivery

    1.3 Standard Delivery S2000-2 Access Controller 1pcs. Resistor MF 1/4W-8.2k + 5% 6 pcs. Woodscrew 1-3×25.016 ГОСТ 1144-80 3 pcs. Wall Plug 3 pcs. DIN 7982 Flat Head Tapping Screw with Cross Drive 2.2×6.5 1 pcs. S2000-2 Datasheet 1 pcs.
  • Page 9 If access is locked by a special credential or by command then it is locked for all the credentials stored in the controller’s memory (locked local access). In this case only centralized access or access by Exit button, if applicable, can be allowed. (Centralized access can be locked only by settings of the network controller).

  • Page 10: Two-Factor Authentication

    1.4.4 Access Allowed Mode This mode can be switched on by pressing the PERMIT access button and is effective only for one authentication. In this mode the LED of the relevant reader pulses with green once per second. In this mode a holder of any credential can achieve access regardless of the purpose of the credential (Master, Unlocking.

  • Page 11: Access Levels

    And to change access rights for a whole group of credentials it is only required to change these rights for their access level. For the S2000-2, user authorities described in an access level are programmed for each reader individually. So, an access level includes two identical sets of parameters: one set for the first reader and once more set for the second one.

  • Page 12: Two (Or More) Person Rule Access Control

    – Two-Person Rule (see Section 1.7); – Three-Person Rule (see Section 1.7); – Confirmed Manually (a confirmation of a guard is required); – Confirmation (for those who doesn’t request access via the access point but confirms pass for other credential holders in accordance with a two(three)-person rule); –...

  • Page 13: Time Zones

    To restrict access rights for users depending on the date, the day of the week, and/or the time within a day the so called time zones are programmed for the S2000-2 and assigned with access levels. For every access level each reader of the controller is assigned with two time zones, the first one being used for access and the second one being used for arming / disarming alarm loops.

  • Page 14: Antipassback Rules

    Meanwhile, one should be kept in mind that if the S2000-2 operates standalone for a long time its clock can shift. That is why it is not recommended to use time zones while the controller operates in standalone mode (without a network controller): all time zones for all access levels should have the number 0.
  • Page 15 S2000-2 controllers then in case of entry to this zone through one access point (one S2000-2 controller) entry at all other points (S2000-2 controllers) is locked while egress from the zone is unlocked and, vice versa, in case of exit from this zone through one access point for all other access points exit from the zone is locked while entry is open (if however an antipassback rule is applied for this credential).
  • Page 16 An antipassback rule can be made stronger by setting Zonal Antipassback (“Entry/Exit Control”). If this parameter is set on for an access level, the S2000-2 controller takes into account all passages of credential holders assigned to the access level to all the access zones programmed within the system.

  • Page 17: Coerced Access

    1.10 Coerced Access The controller provides a capability to warn a security service at the premises that access or operating partitions is requested under coercion. For doing so user presents a Duress Code to the reader instead of a normal credential. In this case a Duress Code Presented message is generated and messages about granting access and transaction (if the credential is used for requesting access) are generated with the Duress Code attribute.
  • Page 18 Upon proceeding to the mode of centralized control, the controller sends the code of the presented credential to the PC (panel) while the reader LED flashes with red and green alternately five times per second until the controller receives a response from the PC or S2000M panel (it can take from fractions of a second to several seconds depending on the number of devices connected to the RS-485 interface).

  • Page 19: Access By Id Templates

    When a credential has been presented to a reader of the S2000-2, the controller firstly checks whether the credential code is stored in the database. If the code is not found in the controller memory, it is compared with the first ID template, then with the second one, etc.

  • Page 20: Connecting Readers

    The terminal sets to connect the first and the second reader to the controller are similar and are described in Table 2. Table 2. Terminals for Connecting Readers to the S2000-2 Input or Terminal...
  • Page 21 − Use of vacant wires of the cable to duplicate the GND circuit; − Use of a cable of a smaller capacitance (refuse to use a shielded cable); − Use of the Wiegand interface instead of Touch Memory. 1.13.1 Connecting readers with Touch Memory interface iButton S2000-2 reader LEDR LEDG green 1) If the reader is equipped with a single-color LED then it should be connected with the LEDG terminal of the controller without regards to its actual color.
  • Page 22 1) If the reader is equipped only with a single LED control circuit then the circuit shall be connected to the LEDG terminal of the S2000-2 (the LEDR terminal is left unconnected). 2) If the reader is not equipped with a control circuit to control a beeper then the BEEP terminal of the S2000-2 is to be left unconnected.
  • Page 23 1) If the reader is equipped only with a single LED control circuit then the circuit shall be connected to the LEDG terminal of the S2000-2 (the LEDR terminal shall be left unconnected). 2) If the reader is not equipped with a control circuit to control a beeper then the BEEP terminal of the S2000-2 shall be left unconnected.
  • Page 24 2) For readers with different interfaces use compatible formats whenever possible. For example, a Proximity card code in the Wiegand-44 format for the S2000-2 controller in most cases is compatible with the card code in the Touch Memory format, i.e. if a reader with the Wiegand-44 interface is used for entering the card code into the controller memory, the card will be recognized correctly by the controller via a reader with the Touch Memory interface and vice versa.

  • Page 25: Connecting Door Open Sensors (Passage Sensors)

    The diagrams for connecting passage sensors (door open sensors) to the S2000-2 are shown in Figure 4. For all the diagrams it is implied that in normal conditions (the door is open, the turnstile is in its initial position, no vehicle is near the boom barrier) a termination resistor of 8.2 kOhm is connected between the circuits DOOR…...

  • Page 26: Exit, Permit (Confirm) And Deny Buttons

    Variant 1 Variant 2 Normally closed with contact output Normally open with contact output (reed switch) S2000-2 S2000-2 8.2 kOhm 8.2 kOhm DOOR DOOR Variant 3 Variant 4 Normally closed open collector output Normally open output of the open collector...

  • Page 27: Alarm Loops

    1.15.1 An EXIT button is used for opening a door (turnstile, boom barrier) without presenting a credential. For the Two Entrance Doors operation mode the EXIT button is the only available way to unlock a door while leaving the premises. For all other operation modes EXIT buttons provide granting access to an individual who has no credential with the relevant access rights.
  • Page 28 Figure 6. The Schematic for Connecting Normally Closed and Normally Open Intrusion Detectors as well as Enable Reading and Unlock Access Circuits into LP1 and LP2 of the S2000-2 1.16.1 To use LP1, LP2, LP3, or LP4 as an intrusion alarm loop, set its Loop Type to the value “Intrusion”.
  • Page 29 1.16.5 If the alarm loop has entered the Arming Failed state and the attribute Auto Arming After Failure is set on for the alarm loop then the alarm loop will automatically proceed to the Armed state as soon as its resistance is within the normal range (2 kOhm to 11 kOhm). 1.16.6 The controller issues no messages in case of an open or short circuit failure of an alarm loop for a time not exceeding 50 ms.
  • Page 30 Touch Memory interface. If the parameter Time to Hold Credentials for Operating is set to zero then this way to arm / disarm alarm loops is disabled and the controller responds immediately when a combined card is presented for access. S2000-2 XT2(XT3) Arming Request...

  • Page 31: Busy Input / Output

    For doing so the input(s) shall be programmed with Loop Type set to the Enable Reading value while for the reader(s) the relevant parameter(s) Enable Reading Via… should be set on. Then, if the resistance of the alarm loop is in norm (2 to 11 kOhm) processing credentials which request for access is disabled (on reading the credentials denying access is indicated), but if the alarm loop is activated (the resistance is less than 2 kOhm or more than 11 kOhm) processing is permitted and presented credentials are processed properly.
  • Page 32 Receive BUSY parameter of the reader (or both readers) must be set on. The parameter Send BUSY is not required to be set on (if only the occupancy sensor is to be monitored, without coordinating operation with other controllers in the network). S2000-2 S2000-2 S2000-2...

  • Page 33: Light And Sound Indication

    The controller indicates events and conditions by its internal indicators (LEDs) and the internal beeper as well as by light and sound indicators of the readers. 1.18.1 Table 3 shows the messages indicated by READY LED of the S2000-2. Table 3. READY LED...
  • Page 34 Event / Condition Indicator Performance Color An unknown credential has been presented and a Illuminates with red and green decision of the network controller is being alternately with 5Hz frequency expected… Loop Alarm Pulses twice per second Arming Failed Pulses twice per second Centralized operating of partitions, the partition is armed Centralized operating of partitions,...
  • Page 35 Event / Condition Category Sound Signaling Under two-factor authentication Access A beep condition a primary code is presented Under two-person rule access condition a Access A beep first credential is presented Two beeps and a long sound Busy Access ("Please Wait") Access is free (unlocked with a special A beep, two beeps, two beeps ("Free Access...

  • Page 36: Configuration Parameters

    1.19 Configuration Parameters The configuration parameters of the controller fall into seven groups: – System Parameters; – Reader Parameters; – Relay Parameters; – Alarm Loop Parameters; – Access Level Parameters; – Time Zone Parameters; – Credential Parameters. 1.19.1 System configuration parameters of the controller are shown in Table 6. Table 6.
  • Page 37 Parameter Description Range Factory Value Access On / Off Enables the built-in controller Door Forced/ sounder signaling for access On / Off Held Open Sound events, door being forced and Alarms held open, loop violation, and the Loop Alarms On / Off credential programming mode entering respectively Programming...
  • Page 38 (for example, to load them from the previously saved file). When access has been granted, the S2000-2 disables reading new credentials for a time equal to Passage Timeout and is waiting for a passage sensor response. For this time the green controller’s LED is being turning on, inviting to pass.
  • Page 39 The counter of invalid attempts is increased after presenting a credential which differs from the last presented one and is recognized neither by the S2000-2 nor by the S2000 panel (Orion Pro software). Presenting a valid credential resets the counter. Once having been locked, the reader is locked repeatedly on presenting a new unknown credential until a valid credential resets the counter of invalid attempts.
  • Page 40 Parameter Description Range Factory Value The number of the access 0…65535 Source Access Zone zone where the reader is 65535 (65535 means that no situated zone is defined) A door open sensor is On / Off Passage Sensor connected Door Forced Open Monitors if the door is open On / Off Monitoring...
  • Page 41 Parameter Description Range Factory Value The list of the alarm loops Indicate activation of which is to be On / Off Alarms In indicated by the reader LED Selecting an active logic level Sounder Control Direct (active Direct (active "1") / to turn the reader’s sounder Polarity "1")
  • Page 42 By default (on receipt of the S2000-2 controller) Time to Hold Credentials for Operating is equal to zero and such way of operating alarm loops is disabled while access for the combined credential is granted without any delay (after presenting the credential, not after removing it).
  • Page 43 The parameter Loop Type for LP1 (LP2) must be set in the Enable Reading value. By default (on delivering the S2000-2 controller) the parameters Enable Reading Via LP1 and Enable Reading Via LP2 is set off and credentials are read regardless of the conditions of LP1 and...
  • Page 44 The parameters Open Access Via LP1 and Open Access Via LP2 provide usage of LP1 and LP2 for switching the reader to the Free Pass mode (see Section 1.16.14). In addition to setting these parameters on, the relevant value ("Open Access") should be selected for Loop Type of LP1 and LP2. Setting the parameter Send BUSY on activates the BUSY output in the process of access at this reader (since presenting a credential and until a passage is registered).
  • Page 45 Control Program defines the way for the relay to be controlled while granting access. The control program 3 ("Switch On for a Time") is used to control electromechanical locks and strikes, turnstiles, gate and barriers actuators. The initial state of the relay is “switched off” but while granting access the relay is switched on (is closed) for a given time.
  • Page 46 1.19.4 Configuration Parameters of Alarm Loops The parameter Loop Type is programmed individually for every of the four alarm loops of the controller (inputs "Z1", "Z2", "DOOR1", and "DOOR2") and defines the function the alarm loop performs (see Section 1.16). For LP1 and LP2 ("Z1" and "Z2") Loop Type can take one of the values: - Intrusion;...
  • Page 47 Table 9. Parameters of Access Levels Parameter Description Value Range Two-Factor Authentication requires presenting the On / Off relevant additional credential Authentication Access Access (passage) is permitted On / Off Access Time Zone (see The number of the time zone which defines 0…100 time slots for access Section 1.8)
  • Page 48 Arm LP1 On / Off Setting these switches on permits arming of Arm LP2 On / Off the relevant alarm loops of the S2000-2 for all the credentials included into the access On / Off Arm LP3 level Arm LP4...
  • Page 49 If both parameters Access and Operating are set on for an access level then credentials with this access level are said as combined, that is they combine an access function with a function of arming / disarming alarm loops. To operate alarm loops by means of a combined credential, the controller is to be preliminary switched to the Ready to Arm / Disarm mode or the credential is to be kept near the reader for a programmed time (see Section 1.16.10).
  • Page 50 To connect the controller to the COM port of the PC please use one of the interface converters PI-GR, S2000-PI, S2000-USB, USB-RS485, or an S2000 (ver. 1.20+) or S2000M panel. The last version of UProg.exe along with additional information can be found in Internet at the address of http://bolid.ru at the page of the S2000-2.

  • Page 51: Programming Credentials

    Orion Pro Database Administrator software utility. If the S2000-2 operates as part of an Orion system based on an S2000 panel or in standalone mode, to program credentials a PC with the UProg.exe software utility is used. This utility provides adding and deleting credential descriptors, setting and modifying attributes of credentials, saving a list of descriptors to a file, loading the list of credential descriptors from a file to the controller’s memory...
  • Page 52 If the access level of programmed credentials implies two-code authentication for the reader then after presenting a primary credential the controller requests for an extra code: the LED of the reader pulses with green five times per second. After that within 30 s a credential should be presented or a PIN should be entered which will be written as an additional code for the primarily presented main code.

  • Page 53: Operation

    Entrance / Exit Door, Turnstile, Boom Barrier, or Mantrap) and by the current access mode (Free Pass, Access Locked, or Controlled Access). In the Controlled Access mode the S2000-2 operates as follows (with some differences for different operation modes). Granting Access To achieve access (open a door, lift a barrier boom etc.) it is necessary to present (bring up,...
  • Page 54 – An Access Denied message is generated. If the credential is not enrolled in the controller memory and communication with the network controller is being lost (standalone operation) then access is rejected: – The sounders of the controller and the readers generate long Error sounds (see Table 5); –...
  • Page 55 Operating Alarm Loops To arm / disarm alarm loops by means of a credential intended for this reader only for these operations (a User-type credential with the enabled Operating and disabled Access parameters in its access level) it is necessary just to present the credential at this reader of the controller. The controller verifies whether the credential is registered in its database, authorities of the credential to operate alarm loops, current activity its time zone for operating alarm loops, and whether authentication has been completed (for two-factor authentication one more code must be presented).
  • Page 56 When access is closed, access can be achieved only by pressing the EXIT button or switching the reader to the Access Allowed mode for a single transaction. The Access Allowed mode can be activated with the help of a switch (stick button) brought into the LP1 or LP2 of the controller.

  • Page 57: Two Entrance Doors Mode

    EXIT button is pressed. The recommended setting for Passage Timeout after granting access is 10 seconds. 2.1.2 The diagram for connecting the S2000-2 in the Two Entrance Doors operation mode is shown in Figure 9.
  • Page 58 Figure 9. Connection Diagram for the Controller in the Two Entrance Doors Mode...
  • Page 59 2.1.3 Configuration Settings 1) Set the operation mode of the controller to the Two Entrance Doors value. 2) Set the value of the Passage Timeout (10 s is advised). 3) If a door sensor is in use then set the Passage Sensor parameter on, else set it off. 4) If electric strikes are in use then for each relay set: –...

  • Page 60: One Entrance / Exit Door

    But an ordinary door doesn’t provide registering all the passages (on granting access for a single credential several persons can achieve access). 2.2.2 The diagram for connecting the S2000-2 in the in the One Entrance / Exit Door mode is shown in Figure 10.
  • Page 61 Figure 10. Connection Diagram for the One Entrance/Exit Door Mode of the Controller...
  • Page 62 2.2.3 Configuration Settings 1) Set the operation mode of the controller to the value "One Entrance / Exit Door". 2) Set the value of the Passage Timeout (10 s is advised). 3) If a door sensor is in use then set the Passage Sensor parameter on, else set it off. 4) If an electric strike is in use then set: –...

  • Page 63: Turnstile Mode

    In this mode antipassback functions can be used because authentication is performed on passages in both directions and on granting access once only one person can achieve access. 2.3.2 The schematic for electric connections of the S2000-2 in the Turnstile operation mode is shown in Figure 11.
  • Page 64 Figure 11. Hardware Connections for the S2000-2 in the Turnstile Operation Mode...
  • Page 65 S2000-2 S2000-2 passage sensor 8.2 kOhm GND1 GND1 8.2 kOhm 8.2 kOhm DOOR1 DOOR1 passage 8.2 kOhm sensor DOOR2 DOOR2 8 Connecting a single passage sensor with Connecting a single passage sensor with normally closed contacts normally open contacts Figure 12. Connecting a Single Passage Sensor (Arm Rotation Sensor) 2.3.3 Configuration Settings...

  • Page 66: Boom Barrier Mode

    2.4.1 In this mode the S2000-2 controls bi-directional access through a single access point – a gate barrier with a single boom for both travel direction. The relay 1 of the S2000-2 opens the boom (lifts it) while the relay 2 closes it (lowers this one). Granting access in both directions requires presenting credentials at the readers located on both sides of the boom barrier.
  • Page 67 Figure 13. Connection Diagram for the Controller to Operate in the Boom Barrier Mode...
  • Page 68 +12V COM2 Figure 14. Schematic for Wiring Traffic Lights to the S2000-2 in the Boom Barrier Mode To control (lift) the boom barrier from the guard post manually, IN and OUT buttons are used which are connected to the terminals EXIT1 and EXIT2 of the controller. To close the boom barrier by force, a DENY button can be used (it is not shown in the scheme).
  • Page 69 8) Set Relay Activation Time for the relay 2 to 5…20 seconds (enough to lower the barrier). 9) For the LP1 and LP2 of the S2000-2 set Loop Type to the value "Enable Reading". 10) Set on the parameters Enable Reading Via LP1 and Enable Reading Via LP2 for the first and the second reader respectively.
  • Page 70 2.4.4 Operation When a vehicle arrives to the reader it stops moving and a User-type credential with Access attribute and "Simple" passage mode is presented. If access is granted then green reader LED (green traffic light) starts illuminating, the boom barrier is lifted, and an Access Granted message is generated with the code of the presented credential.

  • Page 71: Mantrap Mode

    2.5.2 The schematic for connecting the S2000-2 in the Mantrap operation mode is shown in Figure 16.
  • Page 72 Figure 16. Connecting the S2000-2 for the Mantrap Operation Mode...
  • Page 73 In case of powering the locks and the controller by the same power supply, the input power circuits of the controller and input power circuits of the locks must be separate pairs of wires which are connected only at the power supply terminals. If the lock is not equipped with a circuit for suppression of high-voltage pulses generated during commutation then a reverse switched diode must be connected at the lock terminals in parallel with the lock’s winding (the admissible direct current of the diode must not be less than operating...
  • Page 74 2.5.4 Operation To enter the mantrap, a User-type credential with Access attribute is to be presented to the reader before the door. If for the access level of the presented credential the Simple passage mode is programmed then the reader sounder beeps twice, the green LED starts illuminating, the first door is open (unlocked), and an Access Granted message is generated with the code of the presented credential.

  • Page 75: Maintenance

    1. Do shut off input power of the controller prior to connecting and disconnecting wires. 2. While testing take into account the pre-operation time of the controller after powering it on, this time doesn’t exceed 5 s. Figure 17. The Diagram for Connecting the S2000-2 for Testing...
  • Page 76 The LED "1" of the controller and the reader LED shall illuminate three times for a short time in red; c) The controller sounder and the reader sounder (if available and controlled by the S2000-2) shall issue a long Error signal;...

  • Page 77: Marking

    – In the View Input Status menu select the Input ADC command; – Enter the RS-485 address of the S2000-2 (the factory value is 127) or select the device address in the list of connected devices with the help of the "3" and "4" buttons of the panel;...

  • Page 78: Packaging

    7.2 The transportation condition for the controller must be the same as Storage Conditions 5 in accordance with Russian Standard ГОСТ 15150-69. 8 Certificates 8.1. Conformity Certificate № ТС RU С-RU.МЕ61.В.00796 certifies that S2000-2 Access Controller meets the requirements of Technical Reglament of Custom Union TR CU 020/2011.

  • Page 79: Manufacturer Data

    8.2. Production of S2000-2 Access Controllers is certified according to ГОСТ ISO 9001-2011 by a conformity certificate No.РОСС RU.ИК32.К00153. 9 Manufacturer Data The Bolid Company, Russia Address: 4 Pionerskaya Str., Korolev 141070, Moscow Region, Russia Tel./fax: +7 (495) 775-71-55 (multi-channel), +7 (495) 777-40-20, +7 (495) 516-93-72 E-mail: info@bolid.ru;...

  • Page 80: Appendix A Overall And Mounting Dimensions Of The S2000-2 Controller

    Appendix A Overall and Mounting Dimensions of the S2000-2 Controller...

  • Page 81: Appendix Bpcb Layout

    Appendix B PCB Layout...

  • Page 82: Appendix C The Schematics For Connecting Readers To The S2000-2 Controller

    Appendix C The Schematics for Connecting Readers to the S2000-2 Controller The Schematic for Connecting S2000-Proxy, S2000-Proxy N, Proxy-5AG, Proxy-5AB S2000-Proxy N, XT2 (XT3) S2000-2 (S2000-Proxy), LEDR (Ind) LEDG1(2) Proxy-5AG, D0 (Out) D0-1(-2) Proxy-5AB GND (0V) GND1(2) +U (+Upow) +12V1(2)
  • Page 83 D0-1(2) white D1-1(2) blue LEDG1(2) BEEP grey BEEP1(2) S2000-2 Configuration Parameters: Output Interface 2: Wiegand LED Control Polarity Inverse (active "0") Sounder Control Polarity Inverse (active "0") The Schematic for Connecting PR-EH03, PR-EH05, PR-EH09, PR-H16, PR-P05, PR-P09, PR-P16 Variant 1: The Touch Memory Interface...
  • Page 84 The Schematic for Connecting iButton Readers "Schityvatel-2" and "Schityvatel-3" S2000-2 S2000-2 Schityvatel-2 Schityvatel-3 XT2(XT3) XT2(XT3) green LEDG1(2) LEDG1(2) LEDR1(2) white white Read D0-1(-2) D0-1(-2) black black GND1(2) GND1(2) S2000-2 Configuration Parameters: Output Interface 1: Touch Memory LED Control Polarity Direct (active "1")

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