*IPR-QR-Surf-Out
- Tom Polman
- MB
Installation Manual | IM-20221004-MB-01 Access Control | Readers | | 
|
- 1 1. Introduction
- 2 2. Connecting the reader
- 2.1 2.1 Assembly
- 2.2 2.2 Wiring
- 2.3 2.3 Cable length
- 2.4 2.3 Dimensions and color
- 3 3. Configuration
- 4 4. Operational reader settings
- 5 5. Examples
This manual represents the knowledge at the above-mentioned time. TKH security works non-stop to improve her products. For the most recent technical information please contact your consultant or dealer.
1. Introduction
This document is the installation and operation manual for the IPR-QR-Surf-Out (Barcode/QR reader).
This Barcode reader is supported on stacked (USB) Orions only and iProtect version 10.01 or higher.
2. Connecting the reader
2.1 Assembly
The Opticon reader is connected to a plug-in power supply with default a cable length of 1.5m.
Power supply input | Power supply output |
|---|---|
100-240V ~ 50/60Hz | 5.0V DC |
400mA Max. | 2.A A (10W) |
If a plug-in power supply cannot be placed near the reader, consider the reader's specifications when extending the power cable.
2.2 Wiring
ORION PRT1 | |
DELOCK RS3232 - RS485 converter | CAT5 cable > Orion PTR1 |
R+ | Orange |
R- | Orange / White |
GND | Brown |
VCC | Not connected |
ORION PRT2 | |
DELOCK RS3232 - RS485 converter | CAT5 cable > Orion PTR2 |
R+ | Orange & Green |
R- | Orange / White & Green / White |
GND | Brown |
VCC | Not connected |
2.3 Cable length
From device | To device | Cable length (meter) |
|---|---|---|
Orion | DELOCK converter | 100 |
NLV-5201 RS232C | DELOCK converter | 3 |
2.3 Dimensions and color
Device | Dimensions |
|---|---|
IPR-QR-Surf-Out | Hight: 10.6 cm Width: 6.25 cm Dept: 5.4 cm |
Black |
3. Configuration
This chapter describes all necessary settings.
3.1 Card configuration (step 1)
3.1.1 Card number presentation
In iProtect, browse to menu: Access | Settings | Card coding | Card number presentation.
Right click in the search field and choose “add Card number presentation”:
Card number presentation details | |
|---|---|
Name | Enter a logic name |
Format | Hexadecimal or Alpha numeric (case sensitive) |
Calculated length | Depending on project demands, see Chapter 5. Examples |
3.1.2 Card data interpretation
In iProtect, browse to menu: Access | Settings | Card coding | Card data interpretation or
Right click on the “Card number presentation” that was just created and choose “add Card data interpretation”.
Card data interpretation details | |
|---|---|
Name | Enter a logic name |
Reader communication protocol | Hexadecimal |
All other settings | Depending on project demands, see Chapter 5. Examples |
In Chapter 5. Examples you will find the most common reader settings.
3.2 Provisioner (step 2)
3.2.1 Create provisioner elements
In iProtect, browse to menu: Installation| Settings | Provisioner | Provisioner element
Check if the element “stx-etx, stxetx_001_Serialnumber_v1.0.xml” already exists. If present, you can proceed to chapter 3.2.2 Provisioner group.
Add provisioner element
Provisioner element 1 | |
|---|---|
Name | Enter a logic name |
Provisioner file | stxetx_001_Serialnumber_v1.0.xml |
Active | True |
Type | Reader - Serial (RS485) RX-only |
Right click in the search field and choose “add provisioner element”.
Provisioner element 2 | |
|---|---|
Name | Enter a logic name |
Provisioner file | stxetx_type_9600_n_8_1.xml |
Active | True |
Type | Reader - Communication settings |
3.2.2 Create provisioner group
In iProtect, browse to menu: Installation| Settings | Provisioner | Provisioner group
Right click in the search field and choose “add provisioner group”.
Provisioner group | |
|---|---|
Name | Enter a logic name |
Visible | True |
Type | Reader |
Select the new provisioner group in the treeviw and open the Provisioner group list
Select the newly created Provisioner element 1 and Provisioner element 2 and press save.
3. Reader (step 3)
We assume that the reader has already been created within iProtect.
In iProtect, browse to menu: Installation| Hardware | Reader
Search- and select the reader
Select the <Card data interpretation> as described in chapter 3.1.2 Card data interpretation
Select the <Provisioner group> as described in chapter 3.2.2 Create provisioner group
Configure all other settings as desired and save
4. Operational reader settings
This chapter describes the operational settings for the barcode reader in combination with iProtect.
4.1 Default settings
The barcode below programs the reader:
After presenting the configuration barcode the reader will beep multiple times.
This QR code contains the following settings:
High lights | Settings |
Communication | 9600 baud, no partity, 8 databits, 1 stopbit |
Read mode | Auto trigger |
Barcode support | Interleaved 2 of 5 |
Barcode support | 2D Code > QR code |
Barcode support | 2D Code > Micro QR code |
5. Examples
This chapter describes the two most common settings.
5.1 Barcode HEX format
Barcode : AAABBCCCCCCCCCCDDEEEE
Barcode | Format | Length | Value | Note |
AAA | Hex | Max 24 | Don’t care | Will not be checked |
BB | Hex | 2 | AA | Start detection cardnumber |
CCCCCCCCCC | Dec | 10 |
| Card number |
DD | Hex | 2 | FF | End detection cardnumber |
EEE | Hex | Max 24 | Don’t care | Will not be checked |
5.1.1 Example HEX format
Barcode: ABCAA0123456789FF223344556677
Result: In this case the card number is in between AA and FF (0123456789)
5.1.2 Card configuration
5.1.2.1 Card number presentation
Card number presentation details | |
|---|---|
Name | Enter a logic name, e.g. QR code |
Code: |
|
Next available number |
|
Format: | Hexadecimal |
Authorisation group |
|
Abbreviation |
|
Calculated length | 10 |
5.1.2.1 Card data interpretation
Card data interpretation details | |
|---|---|
Name | Enter a logic name, e.g. QR Code 10hex |
Format: |
|
Reader communication protocol: | Hexadecimal |
Card type: | None |
Data Length: |
|
System code | |
Start: | 1 |
Length: | 0 |
Code: |
|
Facility | |
Start: | 1 |
Length: | 0 |
Code: |
|
Card number: | |
Start | 1 |
Length: | 10 |
Modulo: |
|
Offset: |
|
Interpretation selection | |
Start: | 1 |
Length: | 0 |
Code: |
|
Keypad | |
Intrusion system arming key: |
|
Pincode only key |
|
Office mode key |
|
Offset distress key: |
|
Key pincode use only: |
|
PIN length: | 4 |
Pinocde enabled key |
|
Offline Validity | |
Minimum offset (hh:mm): | 12:00 |
Validity window (hh:mm): | 08:00 |
SV WO | |
Length calamity card (Bytes) | 10 |
Calamity card SetupNumber (0-4) | 0 |
ByteSwap | No |
Consistancy | |
Consistancy check required: | No |
Filter | |
Start Tag | AA |
End Tag | FF |
5.2 Barcode ASCII format
Barcode : AAABBBCCCCCCCCCCDDDEEEE
Barcode | Format | Length | Value | Note |
AAA | ASCII | Max 100 | Don’t care | Will not be checked |
BB | ASCII | 2 | A- | Start detection cardnumber |
CCCCCCCCCC | ASCII | 10 |
| Card number |
DD | ASCII | 2 | -F | End detection cardnumber |
EEE | ASCII | Max 100 | Don’t care | Will not be checked |
5.2.1 Example ASCII format
Barcode: ABCA-12345abCDE-Fhhfalsfl
Result: In this case the card number is in between A- and -F (12345abCDE)
5.2.2 Card configuration
5.2.2.1 Card number presentation
Card number presentation details | |
|---|---|
Name | Enter a logic name, e.g. QR code |
Code: |
|
Next available number |
|
Format: | Alpha numeric (case sensitive) |
Authorisation group |
|
Abbreviation |
|
Calculated length | 0 |
5.1.2.1 Card data interpretation
Card number presentation details | |
|---|---|
Name | Enter a logic name, e.g. QR code |
Format | QR Code ascii |
Reader communication protocol: | Alpha numeric (case sensitive) |
Card number | |
Start | 1 |
Length: | 10 |
Modulo: |
|
Offset: |
|
SV WO | |
Length calamity card (Bytes) | 10 |
Calamity card SetupNumber (0-4) | 0 |
ByteSwap | No |
Consistancy | |
Consistancy check required: | No |
Filter | |
Start Tag | A- |
End Tag | -F |