CDVI SOLARKPW User manual

The installer’s choice

cdvigroup.com

SOLARKPW

SOLARKPB

Dual Technology Digicode®/Proximity Reader - Wiegand

Lecteur double technologie Proximité/Digicode

- Wiegand

ENGLISH

FRANCAIS

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

12211

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.

2cdvigroup.com

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

BBuzzer command

input OUT5

OUT6 BUZ

D0 DATA 0 R1/D0

R2/D0 D0

D1 DATA 1 R1/D1

R2/D1 D1

HCLOCK - -

VGREEN LED OUT1

OUT3 GRN

RRED 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

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

BBuzzer command input 7

D0 Data 0 1

D1 Data 1 3

HClock 2

VGreen LED 8

RRed LED 9

3cdvigroup.com

SOLARKPW-SOLARKPB

Dual Technology Digicode®/Proximity reader - Wiegand

INSTALLATION MANUAL

8] 26-BIT WIEGAND FORMAT

Chronograms 0 logic

\DATA1

\CLOCK

\DATA0

1 logic

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

4cdvigroup.com

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

0000671375LRC

Hexadécimal

0 0 0 0 0 A 3 E 8 F LRC

5cdvigroup.com

SOLARKPW-SOLARKPB

Dual Technology Digicode®/Proximity reader - Wiegand

INSTALLATION MANUAL

12] LED CONFIGURATION ON CENTAUR SYSTEM

GREEN LED

SETTINGS

RED LED

SETTINGS

LED ACTUATION :

GREEN

ACCESS ALLOWED

RED

ACCESS DENIED

BLUE

STAND-BY

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

11] ARK 8 BITS OUTPUT FORMAT

Keypad input Hexadecimal Binary Datas

0FO 11110000

1E1 11100001

2D2 11010010

3C3 11000011

4B4 10110100

5A5 10100101

696 10010110

787 10000111

878 01111000

969 01101001

* ou A 5A 01011010

# ou B 4B 01001011

6cdvigroup.com

SOLARKPW-SOLARKPB

Dual Technology Digicode®/Proximity reader - Wiegand

INSTALLATION MANUAL

13] LED CONFIGURATION ON ATRIUM SYSTEM*

LED ACTUATION

GREEN

ACCESS ALLOWED /

RED

ACCESS DENIED /

BLUE

STAND-BY

14] NOTES

7cdvigroup.com

SOLARKPW-SOLARKPB

Dual Technology Digicode®/Proximity reader - Wiegand

INSTALLATION MANUAL

15] PROGRAMMING CHART

Code length:

- 7 digits allowed in 30 or 44 bits only,

- 8 digits allowed in 44 bits only.

Permanent Mode:

The keypad is permanently illuminated

and the reader is ON.

Default values

- Illumination duration: 10 seconds

(in standard mode),

- User code lenght: 5 digits,

- 44 bit wiegand output in direct mode,

- Buzzer abled,

- permanent mode keypad + tags.

- master code 1 2 3 4 5 (default value).

Audible Signal

- 1 short beep > keypad powered

and key presses,

- 1 long beep > data computing

in programming,

- 2 short beeps > Entry or Exit

from programming,

- 4 short beeps > data computing error.

1 beep = OK

Green LED ON

4 beeps = Error

1 bip

LED verte ON

Programming

mode

Enter:

- 0 = for hexadecimal

mode (A & B are not

used) > Atrium & Centaur

standard (26 bits)

- 1 = for decimal mode

(Direct mode, A is

allowed) > Centaur

only. Digicode protocol

(Program the code in

the ﬁ eld PIN)

- 2 = for ARK mode

1 beep

Green LED ON

1 beep = OK

Green LED ON

4 beeps = Error

Enter the illumination

time in seconds from

02 to 99 seconds

Programming

key-in keypad

time

1 beep = OK

Green LED ON

4 beeps = Error

1 beep

Green LED ON

Enter: 4, 5, 6, 7 or 8

to specify the number

of digits.

Programming

the code lenght

1 beep = OK

Green LED ON

4 beeps = Error

1 beep

Green LED ON

Enter: 26, 30 or 44

to deﬁ ne the Bit number

of the Wiegand format

Programming

the Bit length

8cdvigroup.com

SOLARKPW-SOLARKPB

Dual Technology Digicode®/Proximity reader - Wiegand

INSTALLATION MANUAL

Enter the master code

twice (12345, default

value)

Code Length

- The user code must be in 4, 5, 6, 7 or 8 digits,

- In direct mode, all the keypad keys can be

used to program a user code except the B key,

- In hexadecimal mode, all the keypad keys

can be used to program a user code

except the A and B key,

- Enter the user code and then B to validate

the code. 2 beeps are emitted

Red LED ON

2 beeps are emitted

1 beep = OK

Green LED ON

4 beeps = Error

1 beep

Green LED ON

Programming

the audible signal

Enter:

- 0 = disable the

keypad beeps

- 1 = Enable the

keypad beeps

1 beep = OK

Green LED ON

4 beeps = Error

1 beep

Green LED ON

Programming

Master code

Enter:

Enter the new master

code (5 digits)

1 beep = OK

Green LED ON

4 beeps = Error

1 beep

Green LED ON

Programming

reading mode

Enter:

- 0 = Permanent

- 1 = Sleep mode

BPress on B

twice to exit from

programming

9cdvigroup.com

SOLARKPW-SOLARKPB

Dual Technology Digicode®/Proximity reader - Wiegand

INSTALLATION MANUAL

Double technologie :

Proximité et/ou Digicode®

Wiegand 26, 30 ou 44 bits.

Clavier codé sensitif.

Connexion directe à la centrale ou via

le contrôleur de porte (INTBUSW).

Signalisation lumineuse et sonore.

Disponible en version : blanc ou noir.

Dimensions (H x L x P) : 130 x 90 x 35 mm.

Technologie : 125 Khz.

Protocole : lecteur multi-carte - Marin/HD.

Alimentation : 12 V DC.

Consommation : 150 mA.

1] PRÉSENTATION PRODUIT

3] ÉLEMENTS FOURNIS

2] RAPPELS ET RECOMMANDATIONS

Joint

d’étanchéité Vis TF

3x30 Cheville plastique

S5 Embout tournevis

TORX®

Vis TORX®

3x8

GAMME SOLARKP

12211

Certiﬁ cation CE

Certiﬁ cation FCC CFR 47

part 15 compliance

DEEE IP53 -25°C à +70°C

Programmation de la double sécurité

MODE

SYSTEME DIGICODE PROXIMITÉ DOUBLE TECHNOLOGIE

TELACCESS ✔ ✔ ✔

TERENA ✔ ✔ -

CENTAUR ✔ ✔ ✔

ATRIUM ✔ ✔ -

Rappel de câblage

- Programmez votre installation au préalable avant

de l’installer sur site.

- Dans le cas d’une connexion aux centrales

CENTAUR, ATRIUM ou d’une connexion

à un contrôleur de porte (INTBUSW) la distance

avec le lecteur doit être de 50 m maximum.

- La distance entre la centrale ou platine jusqu’au

dernier contrôleur de porte (INTBUSW) peut

atteindre 1200 m maximum.

- Attention de ne pas passer vos ﬁ ls à proximité

de câbles «Courant fort» (ex: 230 V AC).

- Câbles préconisés entre le SOLARKPW-SOLARKPB

et l’interface BUS (INTBUSW) : Câbles 4 paires

SYT1 8/10ème (AWG 20).

Montage

Aﬁ n d’optimiser la ﬁ xation du SOLARKPW-SOLARKPB

et de prévenir les tentatives d’arrachage,

privilégiez les surfaces planes.

Recommandations d’installation

Pour sécuriser l’installation, n’oubliez pas de :

- placer la varistance sur le système de verrouillage,

en parallèle, au niveau de l’alimentation.

- placer une résistance de 120 ohms, entre A et B,

sur la dernière INTBUSW du BUS RS485.

Composition des codes

- Par soucis de sécurité, veillez à modiﬁ er le code

maître usine par celui de votre choix.

- Lors du changement du code maître usine

et de la création des codes utilisateurs, évitez

les codes trop simples (ex: les suites 3 4 5 6 7).

Alimentations préconisées

ARD12 et BS60. Nos

alimentations sont

conformes aux exigences de la norme EN60950-1 :

2006/A11 :2009 et construites pour être limitées

en puissance.

10 cdvigroup.com

SOLARKPW-SOLARKPB

Lecteur double Technologie Proximité/Digicode® - Wiegand

INSTALLATION MANUAL

Other manuals for SOLARKPW

This manual suits for next models

Table of contents

Languages:

CDVI SOLARKPW User manual

Popular Card Reader manuals by other brands