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©2005 Cypress Computer Systems,Inc. • www.cypressworld.com Page 1
SPX-1200
Supervised Reader Extender
Wiring Diagram and Operators Manual
MAN-FA-SPX-1200 V1.03
©2005 Cypress Computer Systems,Inc. • www.cypressworld.com Page 2
Part numbers for different versions:
SPX-1200: RS-485 Twisted pair, wired version.
Table of Contents
Quick Reference guides Page 3,4
General specifications, Dip switch settings Page 5
Electrical specifications, Introduction Page 6
Status indicators and Dip switch details Page 7
Identification of major components Page 8
Detailed terminal connections Page 9,10
Power connection Page 11,12,13
Communication connections Page 14
Reader data connections Page 15,16,17
Door strike relay Page 18
Alternate I/O Function - Dip Switch #5 Page 19,20
Auxiliary inputs and outputs Page 21,22,23,24
Supervised contacts and programming resistors Page 25,26
This device complies with part 15 of the FCC Rules.
Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation.
FCC Part 15 COMPLIANCE
©2005 Cypress Computer Systems,Inc. • www.cypressworld.com Page 3
Connector Terminal Identification- Quick Reference
Suprex 1200 Remote Unit
Gnd5Vdc
Data0/Strobe/F2FData 1/Data
LED
J1
J2
J3
Aux Output 3Line -Line +
RS-232RXRS-232 TXGnd
Aux Input 1
Suprex 1200 Central Unit
+8 - 24VDCGnd
5Vdc J1
J2
J3
Alarm Output
Line -Line +
Rly N.C.Rly ComRly N.O. RS-232RX
RS-232 TXGnd
LED INAux Output 2Aux Input 3
R
C
CYPRESS SUPREX SPX-1200
Rly N.C.Rly ComRly N.O.{Door Strike
Aux Input 2
Data 1/DataData0/Strobe/F2F
{Aux Output 1
Power LED
Power LED Diagnostic LED
Diagnostic LED
+8 - 24VDC
©2005 Cypress Computer Systems,Inc. • www.cypressworld.com Page 4
Dip switch #5 is ONDoor Strike relay does NOT follow LED
1 2 3 4 5 6 7 8 On
Off
1 2 3 4 5 6 7 8
NOT USEDALL OFF
Switch 6 7 8 0 1 x2 x 3 x x 4 x 5 x x 6 x x 7 x x x
WiegandWiegand / No Filter
Strobed Rising Edge (MR-5)Strobed Rising Edge (Dorado 644)
Strobed Rising (Mag-Tek)Strobed Falling Edge
ReservedF2F
x = ON
DIP Switch Settings- Quick Reference
CYPRESS SUPREX SPX-1200
Dip switch #4 is ON-Disable Pullup resistors
Dip switch #4 is OFF-Enable Pullup resistors
1 2 3 4 5 6 7 8
NOT USEDALL OFF
Switch 6 7 8 0 1 x2 x 3 x x 4 x 5 x x 6 x x 7 x x x
WiegandWiegand / No Filter
Strobed Rising Edge (MR-5)Strobed Rising Edge (Dorado 644)
Strobed Rising (Mag-Tek)Strobed Falling Edge
ReservedF2F
x = ON
Dip switch #3 is OFF-Normal Operation
Dip switch #3 is ON-Alternate Relay Setting
CENTRAL Dip Switch Settings REMOTE Dip Switch Settings
©2005 Cypress Computer Systems,Inc. • www.cypressworld.com Page 5
Suprex Remote Unit Dip Switch Settings
All Off except 6,7,8 (see below for details)
Suprex Central Unit Dip Switch Settings
Switch #5- Off = (Default) Normal operation. Strike follows LED status. On = Strike relay does NOT follow LED
General Description and specifications:
The SPX-1200 will connect a Wiegand, MagStripe, or F/2F interface reader to a compatible panel using a single pair of wires. There is also the ability to send additional signals such as Request to Exit, Tamper, Alarm, and Door contacts over the same communication link.
An SPX-1200 system consists of a pair of units. A Central unit connects to the Access Control Panel and a Remote unit connects to the Badge reader and door/ gate hardware. The reader data and status signals are sent over a single pair of wires up to 10,000 feet. An RS-232 connection can also be used.
The SPX-1200 series has the ability to be field configured for various reader formats.
Dip Switch Settings 6.7.8 for Central AND Remote
Switches 6,7,8 select the type of reader format used.
Mode 0. 6,7,8 OFF = Standard Wiegand
Mode 1. 6,7 OFF ; 8 ON = Wiegand without filtering, Use for keypads with burst transmit.
Mode 2. 6 OFF, 7 ON, 8 OFF = Strobed, rising edge trigger, (MR-5™ Compatible)
Mode 3. 6 OFF, 7 ON, 8 ON = Strobed, rising edge trigger, (Dorado 644™compatible)
Mode 4. 6 ON, 7 OFF, 8 OFF = Strobed,rising edge trigger, (Mag-Tek™ compatible)
Mode 5 6 ON, 7 OFF, 8 ON = Strobed, falling edge trigger
Mode 7 6 ON, 7 ON, 8 ON = Unsupervised F/2F (Casi-Rusco Compatible)
Switch #4- Off = Enable Internal Pullup Resistors. On = Disable Internal Pullup Resistors.
Switch #3- Off = Normal Operation. On = Alternate Relay Setting.
©2005 Cypress Computer Systems,Inc. • www.cypressworld.com Page 6
Specifications:
Voltage- 8 to 24 VDC OR + 5VDC
Current- 100 mA nominal
Range: Up to 10,000 feet for RS-485 versions May vary due to quality of wiring. Any isolated wire pair will function with possible degraded performance. Optimal wiring is shielded twisted pair of 22 ga. or better.
Relay Contact Rating- 2A @ 125 VAC
Digital Input Rating: 0 to + 5 Volts DC standard CMOS logic levels
Digital Output Rating: 25 mA Sink 0.5 mA source (10k pullup resistor)Aux Digital Output #3 and Aux Digital Output #1 are Open Collector rated at 200mA Sink
Initial InstallationBefore installing the units in the field, it is a good idea to connect and apply power to the units on a bench before installation in the field location. This is especially recommended if there is unfamiliarity with the Suprex series of products. By initially connecting and powering up the units together, the operation can be observed on both the Central and Remote. Wiring connections and configuration can be verified, and any potential problems can be solved much easier than if the units are separated by several thousand feet.
We recommend that the installation proceed in the following order:
1. Unpackage the units and visually inspect for any shipping damage.
2. Using a power supply or access control panel, apply power to both units using the same power configuration that will be utilized in the final installation.
3. Connect communication lines RS485 (+) and RS485 ( -) between the Central and Remote.
4. Check LED indicators for normal operation. With the communication lines connected, the Green Diagnostic led should flash rapidly and the green power LED should be illuminated steady.
5. Check/ Set the dip switch on Central and Remote units for the type of reader data format thatwill be used.
6. If a reader and panel are available , connect the reader to the Remote unit and connect the Central unit to the panel. Using a test badge, verify that the panel can receive badge reads from the reader, and that the Strike / LED signals are operating in the expected manner.
7. Install the units in their final locations.See the following pages for details on connection and configuration of the SPX-1200.
©2005 Cypress Computer Systems,Inc. • www.cypressworld.com Page 7
Indicators:Each Suprex unit is equipped with 2 leds to convey the operational status of the unit.
Green power LED: This led will illuminate a continuous green color when power is applied to the unit. If this led is not illuminated, power has been lost to the unit.
When communication is lost the Amber LED will flash slower at about 1-2 times per second.
BiColor diagnostic LED: This led will indicate basic status of the units. If the units are not in communication with each other the diagnostic LED will light a solid red color. When the units are able to communicate with each other, the diagnostic LED will flash green on and off about twice per second.
INDICATORS AND SETTINGS
DIP Switch Settings:
The Cypress Suprex supports multiple reader data formats. Each data format can be set with the dipswitch. The dip switch format will be read each time the unit powers up.
Mode 0 . Wiegand mode: Supports Wiegand data 24 to 248 bits. This mode will filter out data (noise) of less than 24 bits.
Mode 1. Wiegand mode without filter: This mode permits all Wiegand bits to be read without applying a noise filter. Any number of Wiegand bits from 4 to 248 will pass in this mode. Use this mode to support equipment that uses a nonstandard number of less than 24 bits.
Mode 2. Strobed data mode, Rising edge trigger. Mercury MR-5™ reader emulation.
Mode 3. Strobed data mode, Rising edge trigger. Dorado 644™ reader emulation.
Mode 4. Strobed data mode, Rising edge trigger. Mag-Tek ™ reader emulation
Mode 5. Strobed data mode, Falling edge trigger. For all readers that trigger data on the falling clock edge.
Mode 7. Unsupervised F/2F mode, will work with most Casi-Rusco™ F/2F format readers inunsupervised mode.
©2005 Cypress Computer Systems,Inc. • www.cypressworld.com Page 8
{
{{
{
The Cypress Suprex System consists of a Central and a Remote unit. Each Suprex board has connections for a card reader, Relay and I/O, and Power and communications. The Central board has connections for the control panel’s reader port, I/O points, and Power and Communications.
The Central and Remote are physically alike and will be identified by a sticker or permanent label with a large “C” or “Central” label and a large “R” or “Remote” label.
C
R
Central Unit
Remote Unit
Identification of major components
Reader Data to Panel
Power
Alarm Relay Contacts
Aux I/O
Power LED
ConfigurationDip Switch
Diagnostic LED
Alarm RelayDiagnostic LED
{
{
Power
Strike Relay Contacts
Power LED
Strike Relay
{ {
Data from Reader Aux I/O
ConfigurationDip Switch
©2005 Cypress Computer Systems,Inc. • www.cypressworld.com Page 9
Connector Terminal Identification- Central unit
RS-232 RX
GroundData 0 / Clock / F2FData 1 / DataLED
Panel/Port Signals
+8 - 24 VDC
Ground+5 VDC
Alarm Relay N.O.
Alarm Relay Com Alarm Relay N.C..
Aux. Digital I/O #1 Output
Aux. Digital I/O #3 InputAux. Digital I/O #2 Output
C
C RS-232 TX
RS-485 Line +RS-485 Line -
©2005 Cypress Computer Systems,Inc. • www.cypressworld.com Page 10
Connector Terminal Identification- Remote unit
RS-232 RX
Ground
Data 0 / Clock / F2FData 1 / Data
LED
Reader Signals
+8 - 24 VDC
Ground+5 VDC
Alarm Relay N.O.
Alarm Relay Com Alarm Relay N.C..
Aux. Digital I/O #3 Output
Aux. Digital Input #1Aux. Digital Input #2
R
R RS-232 TX
RS-485 Line +RS-485 Line -
©2005 Cypress Computer Systems,Inc. • www.cypressworld.com Page 11
Supplying Power:
There are several ways to supply power to the Suprex units. Each of these will be discussed in detail.
A. The “4 Wire” method. This method uses one supply to power both the Central andRemote units. It requires 4 wires to connect the two units together. A typical power supply would be a 12Vdc “wall wart” rated at 500 ma.
The power supply can be located at either the Central or Remote unit. However, only one power supply should be used for this configuration.
Gnd
+V
Line -
Line +
Power Supply+8 to 24 VDC
+V Gnd
R
C
The 4 Wire method is used when there is only one power supply and the distance between the two units is not very large.
©2005 Cypress Computer Systems,Inc. • www.cypressworld.com Page 12
Supplying Power:
B. The “2 Wire” method. This method uses two power supplies. One to power the Central and the other to power the Remote unit. It requires 2 wires to connect the two units together.
The power supplies are located at both the Central and Remote units.
Gnd
+V
Line -
Line +
Power Supply+8 to 24 VDC
+VGnd
R
C
Power Supply+8 to 24 VDC
+VGnd
©2005 Cypress Computer Systems,Inc. • www.cypressworld.com Page 13
C. The “2 Wire 5 Volt” method. This method also uses two supplies. One to power the Central and the other to power the Remote unit. It also requires 2 wires to connect the units together. This method is used when the only power available is an existing 5 volt supply. It is not recommended to use one 5 volt supply to power both units.
The power supplies are located at both the Central and Remote unit. The 5 volt power must be connected to the reader interface + 5 Volt and Ground connections. The other unit can be supplied by either a 5 volt or 8 to 24 volt supply.
Note: When using the 5 Volt power connection, make sure that only one power supply is connected to each unit. The +8 to 24 and 5 Volt supplies should NEVER be connected or used at the same time.
Illustration shows both units with 5 volt power supply.
Gnd
+V
Line -
Line +
R
C
Power Supply5 VDC
+VGnd
Power Supply5 VDC
+VGnd
Supplying Power:
©2005 Cypress Computer Systems,Inc. • www.cypressworld.com Page 14
Green Power indicator
Communication Active, Green flashing approx 2 times per second.
Communication Connections and initial power application:
The examples shown in the power connection methods also indicated how the RS-485 communication lines are connected. Shown below is a typical connection for a Suprex Remote and Central unit using one of the power connection diagrams.
With the units connected using A,B, or C power connections, turn on the power supply. Only power and communications connections should be made at this point.Data and I/O connections should be made after power and communication is verified.
Regardless of which connection method is used, a correctly wired and operating setup will have these indications:
a. The Green power indicator will be illuminated.b. The Diagnostic indicator LEDs will be flashing rapidly on both Central and Remote units.
Do not proceed further if this is not the case. Refer to the troubleshooting guide to correct any problems.
Gnd
+V
Line -
Line +
Power Supply+8 to 24 VDC
+V Gnd
R
C
©2005 Cypress Computer Systems,Inc. • www.cypressworld.com Page 15
Reader Data Connections:
The diagrams below show data connections for the reader signals. Power and communication connections are still present, but have been removed from the diagram for clarity.
Control PanelReader Port
Card Reader
Central Unit
Remote Unit
The SPX-1200 has eliminated the need for “Pullup” resistors in most installations.
Dipswitch #4 controls whether the internal pullup resistors are turned on or not.
Dipswitch #4 OFF (Default) Pullup resistors are enabled. Data outputs on the Central unit willbe pulled up to 5 volts.
Dipswitch #4 ON Pullup resistors are disabled. External pullups can be provided to pull up toa different voltage if necessary. Outputs can be pulled up through a resistor up to 30 volts.
C
©2005 Cypress Computer Systems,Inc. • www.cypressworld.com Page 16
Detailed Reader Port Connections- Central unit
Power supply connections are not shown for clarity.
GroundData 0 / Clock / F2FData 1 / DataLED
Panel/Port SignalsC
©2005 Cypress Computer Systems,Inc. • www.cypressworld.com Page 17
Detailed Reader Port Connections- Remote unit
Power supply connections not shown to clarify data connections.
Data 0 / Clock / F2FData 1 / Data
LED
Ground+5 VDC
RReader Interface
+5 Vdc Reader
Data 0 / Clock / F2FData 1 / Data
LED
Ground+12 VDC
+12 Vdc Reader
Reader Interface
©2005 Cypress Computer Systems,Inc. • www.cypressworld.com Page 18
Door Strike Relay connection and operation:
In the standard configuration, the door strike relay on the Remote is activated when the LED signal is triggered on the Central unit. When the Central unit LED input is connected electrically to Ground ( 0 volt reference) it will trigger the LED output and Strike relay on the Remote unit.
The dip switch on the Central unit can set a different mode for triggering the Door Strike.
1 2 3 4 5 6 7 8
N.C. Contact
CommonN.O.. Contact
Remote Unit
Reader interface Door Strike Contacts
Reader LED
Dip switch #5 is OFFDoor Strike relay follows LED(Standard setting)
LED signal from panel activates LED and Door Strike on Remote Unit.
Central Unit
LED signal from panel activates LED and Door Strike on Remote Unit.
R
C
©2005 Cypress Computer Systems,Inc. • www.cypressworld.com Page 19
Auxiliary Digital output follows Aux. input on Central
Alternate I/O Assignment Setting:
In the Alternate I/O configuration, the door strike relay on the Remote is activated when the Auxiliary digital input signal is triggered on the Central unit. The Central unit LED input will only trigger the LED output on the Remote unit. This setting can be used when the panel LED output does not signify a good badge read.
When the auxiliary digital input on the Central unit is activated (Grounded), the Door Strike Relay on the Remote unit will operate. This is a dual purpose input and also serves as an additional I/O channel. See below.
There is an auxiliary digital output on the Remote unit. This is a 0 to 5 volt digital output that always follows the Auxiliary digital input on the Central unit, regardless of the switch #5 setting. It can be used as an additional low power driver or I/O control. See Auxiliary inputs and outputs for details.
N.C. Contact
Common
N.O.. Contact
Remote Unit
Dip switch #5 is ONDoor Strike relay does NOT follow LED(Alternate setting)
LED signal from panelonly activates LED on Remote
Auxiliary Digital I/O Inputtriggers Strike Relay
Central Unit
C
R
1 2 3 4 5 6 7 8
Reader LED
Strike Relay FollowsAux input on Central
©2005 Cypress Computer Systems,Inc. • www.cypressworld.com Page 20
Alternate I/O Assignment Setting:
The alternate I/O setting also re-assigns the function of the Relay on t he Central unit.In applications where a dry relay contact is required to be sent from the Remote to the Central, the alternate I/O setting can be used.
This setting will exchange the functions of the Relay and Digital output #3 on the Central unit. The Alarm signal will be output on Digital Output #3 and the Digital Output #3 signal will be output using the Relay on the Central unit.
Note: Loss of communication also triggers alarm output on Central
Remote Unit
Dip switch #3 is ONAlarm and Digital Output #3 swap functions(Alternate setting)
Panel interface #1
Central Unit
Open CollectorFollows Alarm Condition C
R
Alarm and Digital Input signals from Remote Unit.
1 2 3 4 5 6 7 8
Relay Contacts Follow Digital Input #1From Remote
Panel interface
Aux Input #1Aux Input #2
©2005 Cypress Computer Systems,Inc. • www.cypressworld.com Page 21
Auxiliary Inputs and Outputs:
There are several additional low power I/O points that can be used on the Suprex-1200 series. These I/O points provide electrical signaling from the Central to the Remote and back from the Remote to the Central.
Aux Output 2 is a 0 - 5 volt digital logic signal level and can sink up to 25 mA. If additional power handling is required, an external relay or I/O module can be used.
The Aux output 3 (Remote) and Aux Out 1 (Central) outputs are open collector outputs and will sink up to 200mA at 30 Volts.
Inputs use 0 - 5 volt digital logic signal levels. Each output will follow the status of its associated input. A signal change on Input #1 will be seen on Output #1, input 2 on output 2, input 3 on output 3.
The Alarm Output is activated when there is a loss of communication between the Central and Remote units. The Alarm output will use the Relay (Normal Operation) or if the Alternate Relay setting is made (Dip switch #3 ON) then the Alarm output and Aux Output 1 will swap connections. In alternate Relay mode the Alarm Output will now be open collector and the Aux Output 1 function will use the Relay.
Auxiliary I/O uses 0 to +5 VOLT signals only
Relay contacts can be used with any voltage up to 120 VAC
The Alarm supervision relay will close when both the Central and Remote units are powered up and communicating.
For applications that require a dry relay contact for Auxiliary I/O functions,an adapter board is available.Cypress Part Number SPX-RLY1
©2005 Cypress Computer Systems,Inc. • www.cypressworld.com Page 22
Auxiliary Inputs and Outputs
Auxiliary I/O uses 0 to +5 VOLT signals only
Relay contacts can be used with any voltage to 120 VAC
Suprex 1200 Remote Unit
J1
J2
J3
Aux Output 3
Aux Input 1
Suprex 1200 Central Unit
J1
J2
J3
Alarm OutputRly N.C.
Rly ComRly N.O.
Aux Output 2Aux Input 3
R
C
Rly N.C.Rly ComRly N.O.{Door Strike
Aux Input 2
{Aux Output 1
Auxiliary I/O Operation: A change on Aux input 1 will be seen on Aux Output 1.I/O 2 and 3 will operate the same 2 affects 2 etc. Output #3 and Output #1 are Open Collector.
©2005 Cypress Computer Systems,Inc. • www.cypressworld.com Page 23
Using Auxiliary Inputs and Outputs: Digital Inputs
Direct connections to the Auxiliary I/O operate at a maximum of +5 Volts. They can be used with most standard system control voltages using the techniques discussed below.
The Digital I/O signals can interface directly to panels and readers that use 5 Volt signal levels. Each Digital I/O point is capable of sinking 25 mA of current. Application of voltages greater than 5 Volts can damage the board.
The digital inputs are pulled up to +5 Volts and operate as active low, they will operate when connected to ground ( 0 Volts ). They can be driven by a digital output from a panel or reader, by an open collector output, or by a relay contact connected to ground.
In no case should a Positive voltage greater than 5 Volts ever be applied to the digital inputs.
Here are several examples of driving the Suprex-1200 series digital inputs using standard field wiring practices.
Activating a digital input with relay or switch contacts.
Digital Input
Ground
Ground
Digital Input
Open Collector Output
Activating a digital input with open collector output device.
©2005 Cypress Computer Systems,Inc. • www.cypressworld.com Page 24
Activating an external relay with a digital output.Use a relay with a 5 volt coil and requiring less than 25 mA drive current.
Digital Output
+ 5 Volts from Suprex
Using Auxiliary Inputs and Outputs: Digital Outputs
The Digital Outputs also operate at 0 and +5 Volts. They are capable of sinking 25 mA and sourcing 0.5 mA. As digital signals, they can be interfaced directly to electronic equipment utilizing 5 Volt logic level signals such as panels and gate controllers. Check the manufacturers specifications for the equipment that you will interface to the Suprex to verify signal levels.
Other external devices such as magnetic or solid state relays can be used if more drive capability is required.
K 1
Relay Contacts
Activating a Solid State Relay. Use a relay with a 5 volt input and requiring less than 25 mA drive current such as the Opto 22 or Crydom products using a logic level input.See relay manufacturers documentation for electrical and connection requirements.
Digital Output
+ 5 Volts from Suprex
K 1
Solid State Relay Contacts
K 1
©2005 Cypress Computer Systems,Inc. • www.cypressworld.com Page 25