Pedestal Controller Wireless - PN: PCW
Pedestal Controller Ethernet - PN: PCE
Table of Contents
Safety, Maintenance, & Operational Information
Additional Listed System Components
Pedestal & Wall Mounting Instructions
Pedestal io Reader Wiring Diagram
Wireless / Ethernet Connections
Single io Door Controller Board Legend
Primary & Secondary Reader Connectors
Reader & Secondary Reader Wiring Diagram
AUX Device Output Wiring Diagram
Maglock / Exit Device Wiring Diagram
Piezo Device to Door Controller Instructions Video
Fail-Secure Door Strike Wiring Diagram
Fail-Safe Door Strike Wiring Diagram
Door Position Sensor (DPS) Wiring Diagram
Pedestal io Installation Overview
The ProdataKey Pedestal io controller is the solution for access control needs in outdoor applications such as parking lots, gated communities, and storage facilities. A robust weatherproof aluminum housing protects the controller while delivering a visually appealing design. Pedestal io controllers are mountable to goosenecks and walls and come ready for plug-and-play installation with a pre-installed ruggedized touchpad reader. After being mounted, it will communicate to the Cloud Node. It is available in two models: Ethernet and wireless.
The Pedestal io gate controller and reader is a next-generation touch-sensitive and proximity card reader that can be used for key cards, fobs, or PIN input. Unlike other keypad readers, this ruggedized reader features a sleek design, rugged aluminum alloy case, touch-sensitive backlit LED buttons, a tamper-proof sensor, and on-board doorbell functionality. With its unique design and specialized antenna, the Pedestal io reader is not only weatherproof but functional over longer distances than most standard readers; the perfect outdoor solution for gates when mounted to a pedestal or wall. It’s even suitable in an indoor office space. The Pedestal io offers users the flexibility to unlock doors with a standard credential or unique PIN or configure two-layer security by requiring users to present a credential and enter a PIN to gain access where extra security is needed.
The ruggedized reader is firmly attached to the sturdy metal housing door and includes a keyed lock. Secure access to the ProdataKey single io board controller inside is easily accommodated, providing either wireless or Ethernet communication to the Cloud Node. The housing is topped with a sealed, weather-proof, long-range antenna.
Easily add single doors to a Cloud Node. The single io controller is used for adding doors to a Cloud Node one door at a time or expanding an existing pdk system. With the option of network, PoE, or wireless connectivity, the single io is the most flexible controller on the market. Each unit is equipped with a fully supervised power circuit that monitors input, output, battery voltage, and overall controller health. Users receive important system notifications via text and email.
Robust and affordable, ProdataKey prox cards and fobs, as well as 10-key input are a standard for access control. The Pedestal io features secure housing and a hooded enclosure extending over the top and sides of the reader to afford protection and shade from inclement weather and sunlight. It’s the perfect solution when an outdoor reader is required.
Installation
Before you begin the installation, read the instructions thoroughly. Make sure you have read and understand the Safety Information.
WARNING: Disconnect power before working with the ProdataKey product. DO NOT mount the product while power is applied. Always apply power at the end of the installation after verifying wiring connections are correct; incorrect wiring could cause damage to the product.
Items you'll need to install this controller are an Ethernet connection for Ethernet controllers, power using the included transformer or a high-voltage converter, and a 12V 1.2 Ah backup battery.
IMPORTANT: A ProdataKey Cloud Node is required to operate the Pedestal io.
Package Contents
The ProdataKey Pedestal io package and the mounting kit consists of:
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The wiring access opening at the back of the housing provides for wiring input to the Single io board.
The 2.4GHz ZigBee low-profile antenna (for long battery life and secure networking) provides the antenna’s long-range capability.
NOTE: Positioning the Pedestal io antenna over long, non-line-of-sight distances, around large metal features, large vegetation, or near high voltage can and may impair and degrade signal strength.
For backup power, the Pedestal io uses a 12VDC 1.2 - 1.5Ah lead acid or gel type battery (not included).
NOTE: A backup battery is HIGHLY recommended to prevent system failure in the event of an AC power loss.
Specifications
Specifications for the Pedestal io are two reader ports to accomplish read-in and read-out applications, an input/output board, a main relay, and a power supply input. The board contains battery terminals and a communication module. These modules will differ depending on the type of controller being installed. The two types of communication modules are Ethernet and Wimac. Ethernet is used for Ethernet controllers, and the Wimac module is used in our wireless controllers. The housing is a stainless steel weatherproof enclosure to protect the board from the elements along with a pre-installed single-gang ruggedized reader.
Recommended Tools
- Drill and the appropriate size drill bits
- Wall anchors (4)
- Electrical tape
- Pencil (to mark hole positions on the mounting surface)
- Low-voltage white B wire splice connectors (If wires will be outside/exposed to the elements, use blue gel-filled B wire splice connectors.)
- Wire Crimper/Stripper
Additional Listed System Components
Cloud Node |
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Single io |
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Eight io |
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Proximity Reader | Must be UL 294 listed |
Proximity Credentials | Must be UL 294 listed |
Electronic Locking Hardware | Must be UL 294 listed |
Pedestal & Wall Mounting Instructions
(A gooseneck bracket mounting pedestal is not included. It is shown for example illustration purposes only.)
(1) Gooseneck Mount - Use the provided kit to mount the Pedestal io to a gooseneck bracket (recommended but not included). Place the gasket between the Pedestal io and the bracket and fasten each of the four bolts using the provided washers, lock washers, and nuts, as shown, in the proper order.
(2) Wall Mounting - Additional hardware may be needed if the Pedestal io is being mounted to a wall.
Pedestal io Reader Wiring Diagram
(1) Reader - The Pedestal io comes pre-wired with a keypad reader. Mounted with 22/5 wire running to the door controller. Wire the reader to the controller as shown here. Check polarity and voltage carefully prior to powering the controller.
(2) Optional 2nd Reader - The Pedestal io board has an additional (optional) terminal that can be used to wire a second reader.
NOTE: Use the following reference for wiring a reader to the i/o board. Required:
- Red: to + (positive) connector
- Black: to - (negative/ground) connector
- Green: to D0 (data zero) connector
- White: to D1 (data 1) connector
- Brown: to LED connector(green LED)
- Yellow: to buzzer connector (optional)
Power
Power Supply
Connect the positive (+) and negative (-) terminals of the included Intertex 14.0 VAC 2000mA Class 2 transformer to the corresponding positive (+) and negative (-) input terminals on the single io circuit board. DO NOT connect any other devices to the transformer.
NOTE: DO NOT power the transformer and backup battery until ALL single io wiring is completed and verified; incorrect wiring could cause damage to the product.
Power Supply Wiring Diagram
(1) DC Input - Use the included 14VDC, 2Ah power supply for DC power input. It is recommended that 16/2 wire be used. The power supply must be installed indoors. For high voltage applications, use the HV Converter. (To order a High-Voltage Converter, please reference part number HVC.)
(2) Battery - Get up to 8 hours of battery backup. The enclosure will fit most 12VDC 1.2 to 1.3 Ah batteries measuring approximately 4” (L) x 1.7” (W) x 2” (H). The battery is connected with the supplied battery leads and is polarity sensitive.
NOTE: A backup battery is HIGHLY recommended to prevent system failure in the event of an AC power loss.
Battery
Using a battery that meets the following specifications will provide at least 30 minutes of backup power in the event of an AC power loss:
- Recommended Battery Type: 12VDC 1.5 Ah lead-acid battery.
- Typical Battery Size: 4” x 2.5” x 1.8” (L H W)
Battery backup is HIGHLY recommended on all ProdataKey hardware. A backup battery must be used to prevent system failure in the event of an AC power loss (B/2 in the illustrations below).
Battery Wiring Diagram
NOTE: DO NOT power the transformer or battery connections until ALL wiring is completed and verified.
NOTE: A backup battery is HIGHLY recommended to prevent system failure in the event of an AC power loss. When a backup battery is not used, a loss of AC power will cause a loss of output voltage.
(A/1) Transformer (DC Input) - From the Intertex 14.0VAC 2Ah Class 2 power supply, connect the red 18/2 wire from the transformer’s positive (+) DC terminal to the positive (+) single io connector; connect the black 18/2 wire from the transformer’s negative (-) DC terminal to the negative (-) single io connector (as shown in the illustrations below). DO NOT connect any other devices to these transformer terminals.
Mounting the included transformer bracket:
- Determine the electrical outlet to be used for powering the transformer.
- Remove the center mounting screw from the electrical outlet faceplate.
- Remove the bracket’s protective adhesive foam backing and carefully align the bracket’s mounting hole with the outlet faceplate hole. Firmly press and hold the adhesive foam tape against the faceplate for several seconds.
- Replace the faceplate’s mounting screw with the included longer screw to secure the bracket and the outlet faceplate.
(B/2) Battery - Use a 12VDC 1.5 Ah rechargeable lead-acid battery.
NOTE: After all wiring has been completed and checked, you may plug the transformer into the bracketed power outlet and connect the backup battery.
If you have any questions or need help with installation or with any of the hardware described here, please feel free to contact the ProdataKey Technical Support staff.
Battery Maintenance
Check the battery regularly and replace only with an identical battery or a ProdataKey recommended battery. Dispose of used batteries according to local regulations or the battery manufacturer’s instructions.
IMPORTANT: There is a risk of a battery explosion if the battery is incorrectly replaced.
Wireless / Ethernet Connections
(1) Wireless WiMAC - All wireless connections come pre-connected.
NOTE: If two Cloud Nodes are in the same vicinity (even within a mile) and you are unable to detect a wireless device on the nearest Cloud Node, check the other Cloud Node in Discovery to see if it connected to the wrong Cloud Node.
(2) Ethernet - Ethernet connected gate controllers accept RJ45 connections. When used, the controller will be assigned a DHCP address. Controllers can be assigned a static IP address by using the Lantronix network utility software referred to below.
NOTE: By default, wireless devices use what is known as DHCP (Dynamic Host Configuration Protocol), which automatically assigns a dynamic (temporary) IP address for a network. For single io Ethernet connections, a static (permanent) IP address is REQUIRED; a static IP address is not required for Cloud Nodes.
Static IP Address
To set up a static IP address for an Ethernet device, the third-party Lantronix DeviceInstaller application can be used. The suggested static IP address can be obtained from your IT manager or network administrator. The default dynamic IP address that is already assigned to the device by the router may also be used and converted to a static IP address.
NOTE: When adding an Ethernet door controller, ensure that when you are using the Lantronix device installer app that your WiFi is turned off and you are hard-wired from your laptop to the customer’s network, otherwise you will not be able to see the devices.
Download the Lantronix DeviceInstaller (stand-alone version) at the Lantronix website for the necessary zip file (and DeviceInstaller Help, if necessary) to install and use this application.
NOTE: If or when you set a static IP on a Cloud Node and the Cloud Node does not come back online immediately, give it a few minutes. If it still does not come online then power cycle the Cloud Node for approximately 10 seconds; the Cloud Node should come back online.
Components
Single io Door Controller Board Legend
Connectors
This section describes the connector’s technical specifications.
Primary & Secondary Reader Connectors
5-pin terminal block supporting Wiegand protocols for communication with the reader.
NOTE: DO NOT power the transformer and backup battery until ALL wiring is completed and verified; incorrect wiring could cause damage to the product.
(A/1) Main Reader - Mounted at the door with 22/5 wire running to the door controller. Wire the reader to the controller as shown above. Check polarity and voltage carefully prior to powering the controller.
NOTE: Use the following reference for wiring a reader to the i/o board. Required:
- Red: to + (positive) connector
- Black: to - (negative) connector
- Green: to 0 (zero) connector
- White: to 1 connector
- Brown: to L connector
(B/2) Optional 2nd Reader for Egress - The Pedestal io board has a second terminal that can be used to wire a second reader (optional).
(C) Piezo (buzzer) - Optional piezo trigger wiring for a door prop alarm connects to (O) on the AUX relay (shown above). Two jumpers are required: one on the center pin and negative (-) (as shown here), another on the NO (Normally Open) and the center pin. The piezo buzzer can be controlled with software rules. Also, refer to AUX Device Output.
5-Pin Connector A (+ - 0 1 L)
5-Pin Reader Connector A | PIN | Notes |
Power Output - + | 1 | Positive 12VDC Out |
Power Output - | 2 | Negative (Ground) 12VDC Out |
Reader Data - 0 | 3 | Data 0 Wiegand Reader Input |
Reader Data - 1 | 4 | Data 1 Wiegand Reader Input |
Reader LED Trigger - L | 5 | Reader LED Output Trigger |
5-Pin Connector B (+ - 0 1 L)
5-Pin Reader Connector B | PIN | Notes |
Power Output - + | 1 | Positive 12VDC Out |
Power Output - | 2 | Negative (Ground) 12VDC Out |
Reader Data - 0 | 3 | Data 0 Wiegand Reader Input |
Reader Data - 1 | 4 | Data 1 Wiegand Reader Input |
Reader LED Trigger - L | 5 | Reader LED Output Trigger |
3-Pin Connector - A / B / O
3-Pin Connector | PIN | Notes |
DPS Input - A | 1 | Door Position Switch or assignable |
REX Input - B | 2 | Request to Exit or assignable. Output 0 (NO or NC and + or - selectable) |
Output - 0 | 3 | Trigger out with jumper configuration for wet positive (+) or negative (-) output. |
3-Pin Connector - NC / C / NO
3-Pin Connector | PIN | Notes |
Normally Closed (NC) | 1 | Normally closed connection for main form C relay with optional jumper configuration for wet positive (+) or negative (-) output. |
Common (C) | 2 | Common connection for main form C relay. |
Normally Open (NO) | 3 | Normally open connection for main form C relay with optional jumper configuration for wet positive (+) or negative (-) output. |
Power Port Connector
Power into the controller board is non-polarity sensitive, meaning that the positive (+) connection (red wire) may go to either of the two posts.
2-Pin Connector | PIN | Notes |
Controller Power Input (+) | 1 | 12VDC Positive |
Controller Power Input (-) | 2 | 12VDC Negative |
Wireless LED Indicators
Wireless LED indicators are shown on the controller board for LINK, HEART, AUX, and RELAY.
LED | Light | Status |
LINK | Solid On | No connection |
Off | Connection is Good | |
HEART | Flashing | Normal operation. |
Solid On | Possible serious hardware function. Call Support. | |
AUX | Solid On | Relay actuated, active. |
Solid Off | Relay is at rest, not active. | |
RELAY | Solid On | Relay actuated, active. (Normally Open, O connection) |
Solid Off | Relay is at rest, not active. (Normally Closed, C connection) |
Ethernet LED Indicators
Ethernet LED indicators are shown on the controller board for LINK, HEART, AUX, and RELAY.
LED | Light | Status |
LINK | Solid On | No Connection |
Off | Connection is Good | |
HEART | Flashing | Normal operation. |
Solid On | Possible serious hardware function. Call Support. | |
AUX | Solid On | Relay actuated, active. |
Off | Relay is at rest; not active. | |
RELAY | Solid On | Relay actuated, active. (Normally Open, O connection) |
Off | Relay is at rest; not active. (Normally Closed, C connection) |
Installing a Reader to a Door Controller
Wiring
Recommended Wiring Dimensions
Use 26 gauge minimum, 18 gauge maximum, stranded for general wiring. Wiring methods shall be in accordance with the National Electrical Code, ANSI/NFPA 70. Follow these recommended wiring sizes.
Wiring For | Recommended Dimensions |
Power Input | 18 gauge 2 conductors (18/2) wire |
Reader | 22 gauge 6 conductors (22/6) wire |
Strike / Maglock | 18 gauge 2 conductors (18/2) wire |
REX | 18 gauge 4 conductors (18/4) wire |
Reader & Secondary Reader Wiring Diagram
NOTE: DO NOT power the transformer and backup battery until ALL wiring is completed and verified; incorrect wiring could cause damage to the product.
NOTE: For UL certified wire installations, all wire running from a single io door controller to a lock, strike, or reader device must be less than 98.5 feet (30 meters).
(A/1) Main Reader - Mounted at the door with a 22/5 or 22/6 wire running to the door controller. Wire the reader to the controller as shown above. Check polarity and voltage carefully prior to powering the controller.
NOTE: Use the following reference for wiring a reader to the i/o board. Required:
- Red: to + (positive) connector
- Black: to - (negative) connector
- Green: to data 0 (zero) connector
- White: to data 1 connector
- Brown: to LED connector
(B/2) Optional Secondary Reader - If an optional second reader is used, it should be mounted at the door with a 22/5 or 22/6 wire running to the controller as shown above. Check polarity and voltage carefully prior to powering the controller.
(C) Piezo (buzzer) - Optional piezo trigger wiring for a door prop alarm connects to (O) on the AUX relay (shown above). Two jumpers are required: one on the center pin and negative (-) (as shown here), another on the NO (Normally Open) and the center pin. The piezo buzzer can be controlled with software rules. Also, refer to AUX Device Output.
If you have any questions or need help with installation or with any of the hardware described in this manual, please feel free to contact the ProdataKey Technical Support staff.
AUX Device Output Wiring Diagram
(A) AUX Device - An optional AUX / Piezo device can be connected to the door controller to be triggered based on specified events in the system. The most typical is a door prop alarm. Connect this device as shown above. The O (AUX Output) uses board power to trigger the device so be sure correct amperage and voltage is available. If a full relay is needed, an AUX relay can be connected to the (O) output to be triggered.
(B) NC/NO Jumper - If the device connected requires power to be triggered then place the jumper between the center pin and NO (Normally Open). If the device requires dropping power to be triggered then place the jumper between the center pin and NC (Normally Closed).
(C) +/- Jumper - If the device needs negative (-) on the trigger leg then place the jumper between the center pin and (-). If the device needs positive (+) on the trigger then place the jumper between the center pin and (+).
Maglock / Exit Device Wiring Diagram
A magnetic lock, or maglock, is a locking device that consists of an electromagnet and an armature plate. Locking devices can be either fail safe or fail secure. The electromagnet portion of the lock is typically attached to the door frame; a mating armature plate is attached to the door. The two components are in contact when the door is closed. When the electromagnet is energized, a current passing through the electromagnet causes the plate to attract to the electromagnet, creating a locking action.
Installing a REX and Maglock to a Door Controller
NOTE: For UL certified wire installations, all wire running from a single io door controller to a lock, strike, or reader device must be less than 98.5 feet (30 meters).
(A/1) Optional Maglock - When installing a maglock, it is required to install an electronic REX (Request to Exit) device as well as a mechanical button at the same door (in case of electrical failure) for free egress. Run 18/2 wire connections from the maglock to the door controller as shown above.
NOTE: If possible, when installing a maglock, avoid using and wiring up the bond sensor at the maglock for a DPS. A bond sensor is a built-in DPS on a maglock. For some unknown reason, it is not compatible with our programming. When a DPS is required, install an actual DPS.
(B/2) REX / Exit Device - Mounted in the desired location with 18/5 wire running from the REX to the controller (18/3 wire if non-powered REX). Wire the REX to the controller and maglock as shown above. If using a powered REX, run to any 12VDC output on the controller. (If reporting is not needed in the system, simply eliminate the dashed wire.)
NOTE: If using Bosch or WBOX brand REX devices, they need to be wired to NO (Normally Open) and C (Common) instead of NC (Normally Closed) and C (Common).
NOTE: Do not power third-party devices to the i/o board. Use a separate external power supply when wiring the exit device.
(C/3) Jumper - Use the designated positive (+) or negative (-) board voltage out of (NO) and (NC). If the jumper is off, the relay is a standard “dry contact” needing input into common. In this diagram, the jumper is placed on the top (-) and center pin to operate the maglock.
If you have any questions or need help with installation or with any of the hardware described in this user manual, please feel free to contact the ProdataKey Technical Support staff.
Locking Relay Wiring Diagram
(A) Diode - The provided diode MUST be installed when using a strike. Install at the strike with the stripe of the diode on positive (+) and the black on negative (-).
IMPORTANT: The diode MUST be installed as close to the lock as possible. The best scenario (if possible) is directly across the screw terminals on the lock (as shown in the first image). Another option is to splice the diode in parallel (shown in image two), connecting it to the positive (+) and negative (-) strike wires using dolphin connectors, and crimp the wires. For questions or detailed information, please contact the ProdataKey Support staff.
Installing the diode backward for a strike can cause the Cloud Node or the io door controller to reboot. A damaged or blown (dead) diode can act as if there is no diode, installed backward, or show incorrect data in the logs such as a card scan when the strike returns to the default state.
B - NC - Normally Closed - Used for maglocks (or strikes in fail-safe configuration). Connect the negative (-) of the maglock or strike to NC on the door controller.
C - NO - Normally Open - Used for strikes in fail-secure configuration. Connect the negative (-) of the strike to NO on the door controller.
D - Jumper - Used to designate (+) or (-) board voltage out of NO and NC. If jumper is off, the relay is a standard “dry contact” needing input into common. In this diagram the jumper is placed on (-) side to operate the strike.
NOTE: For UL certified wire installations, all wire running from a door controller to a lock, strike, or reader device must be less than 98.5 feet (30 meters).
If you have any questions or need help with installation or with any of the hardware described in this user manual, please feel free to contact the ProdataKey Technical Support staff.
Diode Setup
A diode is a standard semiconductor device integral to the safe and proper function of the door controller. It acts as a grounding tool, allowing the flow of current in one direction only. When a door strike is called / requested / sent, the coil sends a spike (also called “kickback voltage”) down the line with as much as 50,000 volts. Without a diode semiconductor, this kickback voltage would damage the control equipment. When properly installed, the diode keeps kickback voltage localized at the lock.
To protect your equipment against electrical kickback, the diode must be installed across the DC powered lock, at the strike, between positive (+) and ground (-). DC voltage is polarized. The diode must be installed in the direction shown in the illustrations: Gray stripe to positive (+), black to negative or ground (-).
Piezo Device to Door Controller Installation Video
Fail-Secure Door Strike Wiring Diagram
Locking devices can be either "fail safe" or "fail secure". A fail-secure locking device remains locked when power is lost. An electric strike replaces the fixed strike faceplate often used with a latch bar. It normally presents a ramped surface to the locking latch allowing the door to close and latch just like a fixed strike.
Installing a Strike to a Door Controller
NOTE: For UL certified wire installations, all wire running from a door controller to a lock, strike, or reader device must be less than 98.5 feet (30 meters).
(A) Diode - The provided diode MUST be installed when using a strike. Install at the strike with the stripe of the diode on positive (+) and the black on negative (-).
IMPORTANT: The diode MUST be installed as close to the lock as possible. The best scenario (if possible) is directly across the screw terminals on the lock (shown in the first image). Another option is to splice the diode in parallel (shown in image two), connecting it to the positive (+) and negative (-) strike wires using dolphin connectors, and crimp the wires. For questions or detailed information, please contact the ProdataKey Support staff.
Installing the diode backward for a strike can cause the Cloud Node or the io door controller to reboot. A damaged or blown (dead) diode can act as if there is no diode, installed backward, or show incorrect data in the logs such as a card scan when the strike returns to the default state.
(B) NO - Normally Open - Used for maglocks (or strikes in fail-safe configuration). Connect the negative (-) of the maglock or strike to NC (Normally Closed) on the door controller.
(C) Jumper - Use the designated positive (+) or negative (-) board voltage out of (NO) and (NC). If the jumper is off, the relay is a standard “dry contact” needing input into common. In this diagram, the jumper is placed on the negative (-) and center pin to operate the maglock.
If you have any questions or need help with installation or with any of the hardware described in this user manual, please feel free to contact the ProdataKey Technical Support staff.
Diode Setup
A diode is a standard semiconductor device integral to the safe and proper function of the door controller. It acts as a grounding tool, allowing the flow of current in one direction only. When a door strike is called / requested / sent, the coil sends a spike (also called “kickback voltage”) down the line with as much as 50,000 volts. Without a diode semiconductor, this kickback voltage would damage the control equipment. When properly installed, the diode keeps kickback voltage localized at the lock.
To protect your equipment against electrical kickback, the diode must be installed across the DC powered lock, at the strike, between positive (+) and ground (-). DC voltage is polarized. The diode must be installed in the direction shown in the illustrations: Gray stripe to positive (+), black to negative or ground (-).
Fail-Safe Door Strike Wiring Diagram
Locking devices can be either "fail safe" or "fail secure". A fail-safe locking device unlocks when power is lost. An electric strike replaces the fixed strike faceplate often used with a latch bar. It normally presents a ramped surface to the locking latch allowing the door to close and latch just like a fixed strike.
NOTE: For UL certified wire installations, all wire running from a single io door controller to a lock, strike, or reader device must be less than 98.5 feet (30 meters).
(A) Diode - The provided diode MUST be installed when using a strike. Install at the strike with the stripe of the diode on positive (+) and the black on negative (-).
IMPORTANT: The diode MUST be installed as close to the lock as possible. The best scenario (if possible) is directly across the screw terminals on the lock (as shown in the first image). Another option is to splice the diode in parallel (shown in image two), connecting it to the positive (+) and negative (-) strike wires using dolphin connectors, and crimp the wires. For questions or detailed information, please contact the ProdataKey Support staff.
Installing the diode backward for a strike can cause the Cloud Node or the io door controller to reboot. A damaged or blown (dead) diode can act as if there is no diode, installed backward, or show incorrect data in the logs such as a card scan when the strike returns to the default state.
(B) NC - Normally Closed - Used for maglocks (or strikes in fail-safe configuration). Connect the negative (-) of the maglock or strike to NC on the door controller.
(C) Jumper - Use the designated positive (+) or negative (-) board voltage out of (NO) and (NC). If the jumper is off, the relay is a standard “dry contact” needing input into common. In this diagram, the jumper is placed on the negative (-) and center pin to operate the maglock.
If you have any questions or need help with installation or with any of the hardware described in this user manual, please feel free to contact the ProdataKey Technical Support staff.
Diode Setup
A diode is a standard semiconductor device integral to the safe and proper function of the door controller. It acts as a grounding tool, allowing the flow of current in one direction only. When a door strike is called / requested / sent, the coil sends a spike (also called “kickback voltage”) down the line with as much as 50,000 volts. Without a diode semiconductor, this kickback voltage would damage the control equipment. When properly installed, the diode keeps kickback voltage localized at the lock.
To protect your equipment against electrical kickback, the diode must be installed across the DC powered lock, at the strike, between positive (+) and ground (-). DC voltage is polarized. The diode must be installed in the direction shown in the illustrations: Gray stripe to positive (+), black to negative or ground (-).
Door Position Sensor (DPS) Wiring Diagram
(1) DPS - The Door Position Sensor is mounted on the door frame in the desired location with a 22/2 wire running from the DPS to the controller. (When using two DPS sensors for double doors, wire them in series with only two conductors running back to the controller.)
(2) Input A - Rule-based inputs can be triggered by using the (A) input for something other than DPS.
NOTE: When input (1) receives a negative (-) connection from the controller, the input is triggered until the negative is dropped. A rule can be set up to trigger any output based on this input trigger.
Door Position Switch (DPS) Install
Gate Operator Wiring Diagram
(1) NO - (Normally Open) Used as a dry contact to trigger the gate operator. Connect the negative (-) of the 18/2 wire to NO and the positive (+) to C.
NOTE: Direct power connection may not be possible with all gate motor models.
Certifications
FCC Compliance Statement: This device complies with Part 15 of the FCC rules. Operation is subject to the following two conditions:
- This device may not cause harmful interference.
- This device must accept any interference received, including interference that may cause undesired operation.
Product can be used without license conditions or restrictions in all European Union countries, including Austria, Belgium, Denmark, Finland, France, Germany, Greece, Ireland, Luxembourg, The Netherlands, Portugal, Spain, Sweden, and the United Kingdom, as well as other non-EU countries, including Iceland, Norway, and Switzerland.
Technical Support
Should you require any technical assistance, please contact our knowledgeable ProdataKey Support staff. Your support queries covering hardware, software installation, trouble tickets, troubleshooting, Return Merchandise Authorization (RMA), or any other questions will be addressed as immediately as possible.
NOTE: In order to receive an RMA from pdk, we must first troubleshoot the device prior to the user receiving an RMA number and the device being returned to the user.
Support:
- Phone: 801.317.8802 option #2 or direct at: 801.206.4086
- Email: support@prodatakey.com
- Direct Dealer Support Line: 801.206.4086
ProdataKey, LLC - 67 West 13490 South, Draper, Utah 84020 United States
Copyright
© 2019 ProdataKey, LLC. All rights reserved. ProdataKey, the ProdataKey logo, and other ProdataKey marks are owned by ProdataKey, LLC and may be registered. All other trademarks are the property of their respective owners. ProdataKey assumes no responsibility for any errors that may appear in this user manual. Information contained herein is subject to change without notice.
Pedestal io Instruction Manual
ProdataKey Readers
© 2019 ProdataKey, LLC.
Ver. 20191111
Date: November 11, 2019
Doc No. PCW/PCE-IM-001
Safety, Maintenance, & Operational Information
Requirements
This information is intended for trained and authorized installers of ProdataKey access control products. Versions of this article will be updated to the ProdataKey knowledgebase as necessary.
In this manual, ProdataKey and its door controllers are referred to as the PDK products, single io, eight io, product, network door controller, device, device controller, and Cloud Node.
Liability
Every care has been taken in the preparation of this document. Please feel free to inform ProdataKey Support of any inaccuracies or omissions in this documentation. We welcome your feedback and suggestions. ProdataKey cannot be held responsible for any technical or typographical errors and reserves the right to make changes to the product and manuals without prior notice.
ProdataKey makes no warranty of any kind with regard to the material contained within this document, including, but not limited to, the implied warranties of merchantability and fitness for a particular purpose. ProdataKey shall not be liable nor responsible for incidental or consequential damages in connection with the furnishing, performance, or use of this material. This product is only to be used for its intended purpose.
Intellectual Property Rights
Patents Pending - ProdataKey has intellectual property rights relating to technology embodied in the product described in this document.
Equipment
This equipment must be installed and used in strict accordance with the instructions given in the user documentation. This equipment contains no user-serviceable components. Wiring methods shall be in accordance with the National Electrical Code, ANSI/NFPA 70. Unauthorized equipment changes or modifications will invalidate all applicable regulatory certifications and approvals.
Use only accessories that comply with the technical specification of the product. These can be provided by ProdataKey or an approved third party. Use only spare parts provided by or recommended by ProdataKey.
After the system is installed and working properly, no further maintenance or testing is required.
Do not attempt to repair the product by yourself. Contact ProdataKey Support or your ProdataKey authorized distributor for service matters.
Trademark Acknowledgments
ProdataKey, Prodata Key, prodatakey, PDK, Prodata, are registered trademarks or trademark applications of ProdataKey in various jurisdictions. All other company names and products are trademarks or registered trademarks of their respective companies. Permission to use, copy, modify, and distribute this software and its documentation for any purpose with or without fee is hereby granted, provided that the copyright notice appears in all copies and that both the copyright notice and this permission notice appear in supporting documentation.
Regulatory Information
Electromagnetic Compatibility (EMC)
This equipment has been designed and tested to fulfill applicable standards for:
- Radio frequency emissions when installed according to the instructions and used in its intended environment.
- Immunity to electrical and electromagnetic phenomena when installed according to the instructions and used in its intended environment.
Safety
This manual has been prepared to help you install the product. Read through the installation instructions carefully before installing the product. Keep the guide for future installation and maintenance reference.
This product complies with IEC/EN/UL 60950-1, Safety of Information Technology Equipment. If your connecting cables are routed outdoors, the product shall be grounded either through a shielded network cable (shielded twisted pair) or another appropriate method.
The power supply used with this product shall fulfill the requirements for Safety Extra Low Voltage (SELV) and Limited Power Source (LPS) according to IEC/ EN/UL 60950-1.
Disposal and Recycling
When this product has reached the end of its useful life, dispose of it according to local laws and regulations. For information about your nearest designated collection point, contact your local authority responsible for waste disposal. In accordance with local legislation, penalties may be applicable for incorrect disposal of this waste.
Supported Readers
Door controllers accept standard 26-bit Wiegand data input from approved readers.
See the available product data sheets at https://www.prodatakey.com/documentation
Support / Sales
Support:
- Phone: 801.317.8802 option #2 or direct at: 801.206.4086
- Email: support@prodatakey.com
- Direct Dealer Support Line: 801.206.4086
Sales:
- Phone: 801.317.8802 option #1
- Email: sales@prodatakey.com
Learn More
Visit ProdataKey learning center https://www.prodatakey.com/training-schedule for certification training and events, webinars, and tutorials.
Notice
- The ProdataKey Single io door controller is intended for indoor use only.
- The ProdataKey product shall be installed by a trained professional.
- The ProdataKey product shall be used in compliance with local laws and regulations.
- The ProdataKey product shall be installed within a secured area.
- To provide the best conditions and proper operation of the product, the controller must be securely mounted in accordance with the installation instructions.
- To use the single-door controller outside or in harsh environments, use ProdataKey Gate Controller. Call sales for the proper model based on your application.
- Use only applicable tools when installing the ProdataKey product. Using excessive force while mounting the product could cause damage.
- Avoid exposing ProdataKey product to shocks or heavy pressure.
- Do not use chemicals, caustic agents, or aerosol cleaners to clean the product. Use a clean cloth dampened with pure water for cleaning the exterior of the enclosure.
- Use only accessories that comply with the technical specification of the product. These can be provided by ProdataKey or a ProdataKey authorized third-party vendor.
- Use only spare parts provided by or recommended by ProdataKey Support or a product reseller.
- Do not attempt to repair the product by yourself. Contact ProdataKey Support or your ProdataKey authorized distributor for service matters.
- Protect the power cord, Ethernet cable, and transformer wires from being walked on or pinched, particularly where the wiring exits the box.
- For UL certified installations, all cable runs to the door controllers must be less than 98.5 ft. (30 meters).
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