CDVI SOLARKPW, SOLARKPB Installation Manual

The installer’s choice

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SOLARKPW
SOLARKPB

Dual Technology Digicode®/Proximity Reader - Wiegand

Lecteur double technologie Proximité/Digicode® - Wiegand

ENGLISH

ENGLISH

EN

FRANCAIS

FRANCAIS

FR

Dual technology: Proximity reader and/

or Digicode® keypad.

Wiegand 26, 30 or 44 bit.
Sensitive touch keypad.
PCB sealed in epoxy.
Audible and visual feedback.
Version available in: white or black.

Technology: 125 Khz.
Multi card protocol reader - Marin/HD.
Input voltage: 12V dc.
Consumption: 150mA.

1] PRODUCT PRESENTATION

3] MOUNTING KIT

2] REMINDERS AND RECOMMENDATIONS

Foam seal

3x30

TF screw

S5

Plastic anchor

TORX® bit

3x8

TORX

®

screw

SOLARKP RANGE

1 2 2 1 1

CE Certifi cation

Certifi cation FCC CFR 47
part 15 compliance

WEEE IP53 -25°C to +70°C

Operating mode

MODE

SYSTEME KEYPAD PROXIMITY DUAL TECHNOLOGY

TELACCESS

✔ ✔ ✔

TERENA

✔ ✔

-

CENTAUR

✔ ✔ ✔

ATRIUM

✔ ✔

-

Cable

- Programming your installation before installing
products on site.

- The distance between a CENTAUR and ATRIUM
controllers or an INTBUSW reader interface
should not exceed more than 50 meters.

- Make sure that the cable is not near by a high
voltage cables (ex: 230 V AC).

- Recommended cable 2 twisted pairs
SYT1 0.8MM (AWG 20).

Back EMF protection

To secure the system from back electromagnetic
fi elds do not forget to mount the varistor in parallel
on the lock terminals.

Security Advice

- For security reasons, change the factory default
master code.

- When selecting a master code and user code
avoid simple codes (example : 3 4 5 6 7).

Mounting recommendations

Mount the keypad on a fl at surface to avoid
any vandalism and to insure the best mounting.

Recommended power supplies

ARD12 & BS60. These products must be powered
in 12Vdc and the power supply should be
certifi ed EN60950-1:2006/A11:2009 standards
and should be designed to be a low power supply
source.

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SOLARKPW-SOLARKPB

Dual Technology Digicode®/Proximity reader - Wiegand

INSTALLATION MANUAL

4] MOUNTING INSTRUCTIONS

5] WIRING

Controller terminal wirings

Wiegand

Terminal

Wiegand format

outputs

CTV900A

ATRIUM

+ 12VDC Input

+12V 12V

- 0V

R1/0V
R2/0V

GND

B

Buzzer command
input

OUT5
OUT6

BUZ

D0 DATA 0

R1/D0
R2/D0

D0

D1 DATA 1

R1/D1
R2/D1

D1

H CLOCK

- -

V GREEN LED

OUT1
OUT3

GRN

R RED LED

OUT2
OUT4

RED

Place

imperatively

the Foam seal

6] WIRING CONNECTION TO A DOOR CONTROLLER (INTBUSW)

7] LED & AUDIBLE TONE

When powered up

- Green LED illuminates for 1 second.

- RED LED illuminates for 1 second.

- Blue LED illuminates for 1 second with beep for 1 second

Operating mode

- Buzzer activated with 0V input.

- LEDs activated with 0V input.

Standard Mode

- Badge recognized: the orange LED illuminates and the beeper
emits a tone during 150 milliseconds

1

R V B D1D0 H - +

Input LED management

Green LED Red LED Status

OFF OFF Off

OFF ON red

ON OFF green

ON ON blue

SOLARKPW - SOLARKPB INTBUSW

+

12VDC

12

-

0V

V

B Buzzer command input

7

D0 Data 0

1

D1 Data 1

3

H Clock

2

V Green LED

8

R Red LED

9

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SOLARKPW-SOLARKPB

Dual Technology Digicode®/Proximity reader - Wiegand

INSTALLATION MANUAL

8] 26-BIT WIEGAND FORMAT

Chronograms

0 logic

\DATA1

\CLOCK

\DATA0

1 logic

50
µS

50
µS

2MS 2MS

Interface

- The output format is 26-bit Wiegand (Signals: DATA1, DATA0 and CLOCK),

- Output signal in open collectors (pull up of 2.2K in +5V) 26-bit hexadecimal output format.

The frame is made of 26-bit and built as follow:

- First parity: 1-bit – even parity for the fi rst 12-bit,

- User Code: 3 half of a byte represent the code entered. Each byte is transferred from bit 7 to bit 0,

- Second parity: 1-bit – odd parity for the last 12-bit.

Bit 1 Bit 2 … bit 25 Bit 26

Even parity on bit 2…bit13 Data (24 bits) Odd parity on bit 14…bit 25

KEYPAD CODE

Example with a 4-Digit keypad code: « 1 3 7 A » Then « B » & « 1 3 7 5 » Then « B »

1 0000 0000 0001 0011 0111 0101 0

Direct

Parity 1 0 0 1 3 7 A Parity 2

Hexadecimal

Parity 1 0 0 0 5 5 F Parity 2

Example with a 5-Digit keypad code: « 7 1 3 7 A » Then « B » & « 7 1 3 7 5 » Then « B »

Direct

Parity 1 0 7 1 3 7 A Parity 2

Hexadecimal

Parity 1 0 1 1 6 C F Parity 2

Example with a 6-Digit keypad code: « 6 7 1 3 7 A » Then « B » & « 6 7 1 3 7 5 » Then « B »

Direct

Parity 1 6 7 1 3 7 A Parity 2

Hexadecimal

Parity 1 0 A 3 E 8 F Parity 2

- Parity 1: «0» if the number of 1 in bit 2 to bit 13 is even, «1» if the number of 1 in bit 2 to bit 13 is odd.

- Parity 2: «0» if the number of 1 in bit 14 to bit 25 is odd, «1» if the number of 1 in bit 14 to bit 25 is even.

BADGE CODE EX: 0F01198AAD

Parity 1 1 9 8 A A D Parity 2

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SOLARKPW-SOLARKPB

Dual Technology Digicode®/Proximity reader - Wiegand

INSTALLATION MANUAL

9] 30-BIT WIEGAND FORMAT

Signals output in open collectors with pull up in 30-bit hexadecimal format. The output format from
the proximity reader is 30-bit wiegand (Signal: DATA1, DATA0 and CLOCK) and is structured as follow:

- Parity 1: 1 bit – even parity for the fi rst 14-bit. Code : A code is formed from 7 half byte.
Each byte is transferred from bit 7 to bit 0.

- Parity 2: 1 bit – odd parity for the last 14-bit.

Bit 1 Bit 2 à bit 29 Bit 30

Even Parity from bit 2 to bit 15 Data (28-bit) Odd Parity from bit 16 to bit 29

KEYPAD + BADGE CODES

Example: Badge 0F01198AAD + 6-DIGIT Keypad code: « 6 7 1 3 7 5 » Then « B ».

1 0001 0001 1001 1000 1010 1010 1101 0

BADGE Parity 1 1 1 9 8 A A D Parity 2

KEYPAD

CODE

Direct

Parity 1 0 6 7 1 3 7 5 Parity 2

Hexadecimal

Parity 1 0 0 A 3 E 8 F Parity 2

- Parity 1: «0» if the number of 1 in bit 2 to bit 15 is even, «1» if the number of 1 in bit 2 to bit 15 is odd.

- Parity 2: «0» if the number of 1 in bit 16 to bit 29 is odd, «1» if the number of 1 in bit 16 to bit 29 is even.

10] 44-BIT WIEGAND FORMAT

44-bit hexadecimal format. The output format from the proximity reader is 44-bit (Signal: DATA1, DATA0
and CLOCK) and is structured as follow:

- Data: 10 digit code number hexadecimal MSByte fi rst. Each hexadecimal digit = 4 bit, MSBit fi rst

- LRC : 4 bit = or restricted in between the digit of the data, MSBit fi rst.

Bit 1 to bit 40 Bit 41 to bit 44

Badge code LRC

KEYPAD + BADGE CODES

Example: Badge 0F01198AAD + 8-DIGIT Keypad code: « 6 7 1 3 7 5 » Then « B »

0000 1111 0000 0001 0001 1001 1000 1010 1010 1101 ...

BADGE

0 F 0 1 1 9 8 A A D LRC

KEYPAD

CODE

Direct

0 0 0 0 6 7 1 3 7 5 LRC

Hexadécimal

0 0 0 0 0 A 3 E 8 F LRC

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SOLARKPW-SOLARKPB

Dual Technology Digicode®/Proximity reader - Wiegand

INSTALLATION MANUAL

12] LED CONFIGURATION ON CENTAUR SYSTEM

GREEN LED

SETTINGS

RED LED

SETTINGS

ACCESS ALLOWED

ACCESS DENIED

STAND-BY

* In Digicode® keypad mode only or Proximity mode only.

11] ARK 8 BITS OUTPUT FORMAT

Keypad input Hexadecimal Binary Datas

0 FO 11110000

1 E1 11100001

2 D2 11010010

3 C3 11000011

4 B4 10110100

5 A5 10100101

6 96 10010110

7 87 10000111

8 78 01111000

9 69 01101001

*

ou A

5A 01011010

#

ou B

4B 01001011

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SOLARKPW-SOLARKPB

Dual Technology Digicode®/Proximity reader - Wiegand

INSTALLATION MANUAL