TECHFASS MREM 79, MREM 79E – EM, MREM 79E – TF User Manual

MREM 79

APS mini Plus reader modules for Fermax Cityline and Fermax Skyline entry panels

User’s guide

© 2004 – 2014, TECH FASS s.r.o., Věštínská 1611/19, 153 00 Prague, Czech Republic, www.techfass.cz, techfass@techfass.cz

(Date of release: 2014/5/15, valid for FW version 5.11)

All brand or product names are or may be trademarks of, and are used to identify products and services of, their

respective owners.

1 Content

1 Content ....................................................................................................................... 2

2 Product description ..................................................................................................... 3

3 Technical parameters ................................................................................................. 3

3.1 Product version .................................................................................................... 3

3.2 Technical features ................................................................................................ 4

3.3 Special accessories ............................................................................................. 4

3.4 Using WIO 22 module for remote output control................................................... 4

3.5 Mechanical design ............................................................................................... 5

4 Installation .................................................................................................................. 5

4.1 Connectors, jumpers, LED indicators description ................................................. 5

4.2 C1, C2 and C3 cable wires signal description, configuration jumpers ................... 6

4.1 LED Indicators ..................................................................................................... 6

4.2 Standard connection ............................................................................................ 6

4.3 Installation instructions ......................................................................................... 7

4.4 Assembly and disassembly of the reader module ................................................ 7

5 Setting parameters of the reader module .................................................................... 8

5.1 Configurable parameters ...................................................................................... 8

5.2 Reader module parameters setting ...................................................................... 8

6 Reader module functioning ......................................................................................... 9

6.1 “Door Open” function description ......................................................................... 9

6.2 Function permanent door lock release according to a time schedule ................... 9

6.3 Alarm states ....................................................................................................... 10

6.4 Standard operating modes ................................................................................. 11

6.5 Read ID media format ........................................................................................ 11

6.6 Wiegand interface configuration ......................................................................... 11

6.7 Programming mode ........................................................................................... 13

6.8 ID expiration function ......................................................................................... 16

6.9 ID with Alarm flag function ................................................................................. 16

6.10 Antipassback function ........................................................................................ 17

6.11 Disabling function............................................................................................... 18

6.12 Reading synchronization .................................................................................... 18

6.13 Online authorization ........................................................................................... 18

7 Simplified access rights evaluation ........................................................................... 19

8 Useful links ............................................................................................................... 19

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2 Product description

The MREM 79 1) reader modules (125 kHz readers
with an embedded single door controller) are
designed for connection to the RS 485 bus of the APS

mini Plus access control system, or for standalone

operation. It is possible to connect up to 32 reader
modules to a single line of the APS mini Plus system.
In effect the number of lines is not limited.

The reader modules of this design are intended for
installation in Fermax Cityline and Fermax Skyline
door entry panels.

The module is supplied in MREM 79E versions as a PCB.

1)

Commercial designation of available versions is described in table 1.

3 Technical parameters

3.1 Product version

Product version

Product designation Catalogue number

Module features

2)

TF

EM

HID

MREM 79E – TF 53479000 

 

MREM 79E – EM 53479001



 

Table 1: Product version

2)

TF – TECHFASS factory ID media reading; EM – EM Marin ID media reading; HID –

HID Proximity ID media reading

Pic. 1:

M

REM 79 reader in the

REF 7444 information module

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3.2 Technical features

Technical features

Supply voltage 8 ÷ 15 VDC

Current demand

Typical 80 mA

Maximal 115 mA
Version with keypad N / A

ID technology,
typical reading range

EM Marin 5 cm (with ISO card)

HID Proximity 4 cm (with ISO card)
Real-time clock Yes, with self backup for 12 hrs.

Memory

Cards 2,000 ID, 2 programming cards

Events 3,400

Time schedules 64

Inputs

1st input Logical potential-free contact

2nd input Logical potential-free contact

Outputs

Door lock Relay NC/NO, 2A/24V

Alarm Transistor output 5V/5mA

I/O Port External device

Ext. tamper / ext. reader buzzer control /
module disable function / reading
synchronization MASTER/SLAVE modes

Indicators

3x LED

1x PIEZO
Tamper protection N / A
Communication interface RS 485
Alternative data input/output WIEGAND (configurable)

Table 2: Technical features

3.3 Special accessories

Accessories

WIO 22 51901200 Remote control module, 2x relay

Table 3: Special accessories

3.4 Using WIO 22 module for remote output control

The WIO 22 remote control WIEGAND relay module is designated for secure output control
of APS system reader modules. The door open or other functions can be controlled from
the module located inside the secure area, while the reader module can be located in the
non-secure area.

The module is controller by WIEGAND signal directly from the reader module working in
standard operating mode. The module must be paired with appropriate reader module
before use.

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3.5 Mechanical design

Mechanical design

Weight 0.020 kg

Operating temperature -25 ÷ 60 °C

Humidity Max 95%, non-condensing

Housing According to used installation components

Pigtail 3x 0.5 m

Dimensions 99 x 42 x 15 mm

Table 4: Mechanical design

4 Installation

4.1 Connectors, jumpers, LED indicators description

Described elements

Element Meaning
C1 Connector for plugging in the C1 cable (8-wires cable)
C2 Connector for plugging in the C2 cable (3-wires cable)
C3 Connector for plugging in the C3 cable (7-wires cable)
J0 Configuration jumper for RS 485 line termination
D1 Red/green LED, operating mode and card reading indication
D2 Yellow LED, programming mode and door lock release indication
D3 Green LED, door lock status indication

Table 5: Connectors, jumpers, LED indicators description

C1 C2

C3

J0

D1

D2

D3

Pic. 3: Front side of the reader module

(installed in the information module)

Pic. 2: Rear side of the module

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4.2 C1, C2 and C3 cable wires signal description, configuration jumpers

Wiring description, configuration jumpers

C1 cable

C3 cable

#

Color Meaning

#

Color Meaning

1

Blue 0 V (GND)

1

Blue 0 V (GND)

2

Red +12 VDC power supply

2

Red +12 VDC power supply

3

Pink Alarm output

3

Yellow Input 1 (IN1)

4

Yellow Input 1 (IN1)

4

Grey Input 2 (IN2)

5

Grey Input 2 (IN2)

5

Black Wiegand data 0

6

Black RS 485 – A wire

6

White Wiegand data 1

7

White RS 485 – B wire

7

Green Input/output 3 (IO3)

8

Green Input/output 3 (IO3)

C2 cable Configuration jumpers

#

Color Meaning # Meaning

1

Pink NO relay contact

J0

RS 485 line terminating resistor
(=150  between A and B wires)

2

Brown C relay contact

3

Orange NC relay contact

Table 6: Wiring description, configuration jumpers

4.1 LED Indicators

LED indicators

D1 Red-green

Continuously lit (red) Online operating mode

Flashing with 4 s period (red) Offline operating mode

Fast switching (red / green)

Address setting mode;
RS 485 BUS testing mode

Single flash (green) ID media reading

D2 Yellow

Continuously lit / flashing Programming mode

Short flashing with 1s per.

Indicating door lock release
(configurable)

D3 Green Indicating door lock release

Table 7: LED indicators

4.2 Standard connection

Std. connection

Input 1 Door contact, active when door closed; REX button

Input 2

Request to exit button or handle contact; Tamper; Disabling function;

active on 0 VDC
Output 1 Door lock control (relay)
Output 2 Alarm status signaling (+ 5V on any alarm occurrence)

I/O Port

External tamper (Standard operating mode)

External reader buzzer control (op. mode with entry reader)

Disabling function

Reading synchronization: MASTER / SLAVE mode

Table 8: Standard connection

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The door monitoring contact (IN1) is operational after its first change of status since
switching on the module. Full door lock timing acc. to tab. 9 is used when the door status
contact is not installed and no Forced Door and Door Ajar alarms are triggered.

4.3 Installation instructions

The reader module uses passive RF/ID technology, which is sensitive to RF noise sources.
Noise sources are generally of two types: radiating or conducting.

Conducted noise enters the reader via wires from the power supply or the host.
Sometimes, switching power supplies generate enough noise to cause reader malfunction,
it is recommended to use linear system power supplies.

Radiated noise is transmitted through the air. It can be caused by computer monitors or
other electrical equipment generating electromagnetic fields.

Consequently, a short distance between the reader modules themselves can cause
reading malfunctions – for correct operation it is necessary to keep a minimum distance of
50 cm. Various metallic constructions may have a negative influence on this distance; if
there are any doubts, it is recommended to make a practical test before final mounting.

Nearby metal surfaces may cause a decrease in reading distance and speed. This is
caused by the combined effects of parasitic capacitance and conductance.

4.4 Assembly and disassembly of the reader module

For manipulation with the reader module use the installation procedure described in the
information leaflet of the Fermax REF 7444 information module. After disassembling the
information module, insert the reader module in the preset position and place the printed
film behind the front curtain of the information module.

Plug in the cables you need to use for the intended module operation mode.

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5 Setting parameters of the reader module

5.1 Configurable parameters

Configurable parameters

Parameter Possible range Default setting

Door lock release time

0 255 s

7 s

Door lock control setting Direct / reverse Direct
Door lock relay function setting Standard / toggle / pulse Standard
Permanent door lock release according to

a time schedule

Never / Schedule index Never

Door lock status indication YES / NO NO
Acoustic signal of door lock release YES / NO YES

Door ajar time

0 255 s

20 s

First button configuration Door contact / REX button Door contact

Second input configuration

REX button / handle contact
/ external tamper / tamper /
disabling function

REX button

Third input / output port

Tamper / ext. buzzer signal
/ disabling function / reading
synchronization

Tamper

Acoustic signalization time - Tamper

0 255 s

30 s

Acoustic signalization time - Forced door

0 255 s

30 s

Acoustic signalization time – Door ajar

0  255 s

0 s

Acoustic signalization time – APB alarm

0 255 s

0 s

Signalization time – Card alarm

0  255 s

30 s

Antipassback function setting

See chapter 6.10

Disabled

Automatic summer time adjustment

YES / NO YES

Release lock with REX button when
tamper alarm active

YES / NO YES

Online authorization timeout

0 25500 ms

800 ms

Standalone authorization after timeout YES / NO YES

Saving events in
the module’s
archive

Door opened Enabled / Disabled Enabled

Door closed Enabled / Disabled Enabled

Input 2 On Enabled / Disabled Enabled

Input 2 Off Enabled / Disabled Enabled

Strike released Enabled / Disabled Enabled

Strike closed Enabled / Disabled Enabled

Table 9: Configurable parameters

5.2 Reader module parameters setting

Detailed instructions for setting reader module parameters are described in the APS

Reader configuration program user’s guide available at the address

http://www.techfass.cz/files/m_aps_miniplus_reader_en.pdf.

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6 Reader module functioning

The reader module supports the following functions:

 Standard “Door Open” function.
 Door status monitoring.
 Exit-devices contact monitoring.
 Alarm output activated / acoustic signalization activated when any alarm condition

occurs.

The “Door Open” function can be activated in 3 different ways:

 Reading a valid ID (card, key fob…).
 Pressing the exit button (according to configuration) – cannot be used in alarm

condition.

 Via communication line (program request).

6.1 “Door Open” function description

In case the standard function of the door lock relay is set, the door lock is released and the

beeper activated (when not disabled) when the “Door Open“ function is activated. Both

outputs stay active until the door is opened or the preset door lock release time has
elapsed - see configuration table.

In case the toggle function of the door lock relay is set, the door lock relay status is

switched and the beeper is activated (when not disabled) when the “Door Open” function is

activated. The beeper stays active until the door is opened or the preset door lock release
time has elapsed - see configuration table. The door lock relay status remains unchanged
until another “Door Open” function is activated.

In case the pulse function of the door lock relay is set, the door lock relay status is switched
for the time defined by the Pulse width parameter (ms) after the Door Open function is
activated.

In case the standard function of the door lock relay is set, reading a valid card during
door lock release resets the door lock release time.

6.2 Function permanent door lock release according to a time schedule

When the function is set, the door lock is permanently released when relevant time
schedule is valid. Reading a valid ID is standardly announced via the communication line
(in online operating mode). The forced door alarm cannot be raised when the door lock is
permanently released.

The permanent door lock release function and the toggle function of the door lock relay
are mutually exclusive.

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6.3 Alarm states

The reader module can get in following alarm states:

1) Tamper alarm

2) Forced door alarm

3) Door ajar alarm

4) Antipassback alarm (Time APB alarm, Zone APB alarm)

5) ID with Alarm flag alarm

Alarm state reporting is performed as follows:

 Via communication line (statuses 1, 2, 3, 4, 5)
 By acoustic signal (beeper) (statuses 1, 2, 3, 4).
 Activating the alarm output (AUX output) (statuses 1, 2, 3, 5).

Alarm signaling via communication line requires online running PC with relevant software
suitable for online operation (APS 400 nAdministrator).

Two ways of acoustic signaling is carried out:

 Steady signal (tamper).
 Intermittent signal (forced door and/or door ajar, APB alarm).

Acoustic alarm signaling is stopped after a valid ID is presented or pre-set time interval is
elapsed, see the configuration table.

If any of the relevant alarm states (with setting of the signaling timer > 0) occurs, the alarm
output is activated. It can control any alarm device directly or it can be processed further.

After terminating all alarm conditions the alarm output is deactivated.

The alarm signaling is triggered by any alarm condition.

6.3.1 Tamper alarm

In case of tampering the module (the status of input 2 or input 3 in proper configuration) the
“Tamper” state is activated 3).

3)

The Tamper alarm handling is operational after their first change of status since
switching on the module. There is no need to configure the module when the tamper
protection is not used.

6.3.2 Forced Door alarm

The “Forced Door” alarm state is activated when the door is opened without activating the
“Door Open” function. The only exception is opening the door with the second module input
IN2 active and configured as a handle contact.

6.3.3 Door Ajar alarm

If the door stays open until the pre-defined Door ajar timeout expires – see Tab. 12, the
“Door Ajar“ alarm is activated.

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6.3.4 Antipassback alarm

The Antipassback alarm is raised when an ID is read during the Time APB counter is
running or when the ID is blocked by a Zone APB.

6.3.5 ID with Alarm flag alarm

ID with Alarm flag alarm occurs when an ID with the Alarm flag is read.

6.3.6 Reading ID during alarm state

Reading an ID doesn’t affect the alarm state, reading a valid ID only terminates the
acoustic alarm announcement followed by “Door Open” function. Reading an invalid ID only
interrupts the acoustic announcement of the alarm state while signalizing “Invalid ID”.

6.4 Standard operating modes

The reader module can be in either online or offline operating mode. The module’s
functionality is identical in both operating modes; the events archive is read from the reader
module’s memory when the module goes online.. When a programming card is read (while
in either online or offline mode), the module goes into programming mode.

6.5 Read ID media format

6.5.1 EM Marin ID media format

The EM Marin ID media format can be changed into selected 24, 32 or 40 bits length of ID
code. The default length is 40 bits. This setting is only used when unifying of the ID media
codes length is required – in combined systems with WIEGAND output readers with a fixed
WIEGAND data format IDs (more information in APS Reader user’s guide available at

http://www.techfass.cz/files/m_aps_miniplus_reader_en.pdf).

6.5.2 HID Proximity ID media format

When working with HID Proximity technology ID media, the module operates with a code in
a recognized 26 or 32 bit format, in other cases it uses all 45 bits of a media (45bit raw
format). If a specific format of the HID Proximity IDs is required, it can be performed by
setting up the user’s configuration of read IDs (more information in APS Reader user’s
guide available at http://www.techfass.cz/files/m_aps_miniplus_reader_en.pdf).

6.6 Wiegand interface configuration

6.6.1 Standard operating mode

This is the module default operating mode. The Wiegand interface is used for controlling
the WIO 22 module in this configuration. When the reader module operates in the standard
operating mode, the I/O Port (tab. 6) is used as an input for monitoring an external device
tamper status.

6.6.2 Wiegand output

The module can be configured into a standard reader with a WIEGAND output in 26, 32, 42
or 44 bits format for EM Marin technology ID media. Read IDs are formatted with the
previous setting first (see chapter 6.5.1), after that they are sent in the output format. The

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HID Proximity ID media are sent in the same format as set for the standard operating

mode. When the reader module operates in the Wiegand output operating mode, the I/O
Port (tab. 6) is used as an input for monitoring an external device tamper status.

Wiegand

ID media technology Available configuration of the WIEGAND output format

EM Marin 26bit, 32bit, 42bit, 44bit

HID Proximity

Automatically recognized format / 45bit raw data

User configuration

Table 10: ID media format in WIEGAND operating mode

Two long beeps and the red LED lit feature powering up the module. The green LED blink
indicates an ID reading.

Individual signals function in WIEGAND output operating mode is described in table 11.

Wiegand

Input 1 Beeper control (0 V active)
Input 2 Yellow LED control (0 V active)

Output 1 (relay)

Tamper signaling; it follows the alarm state of tamper
sensors (tamper signal = relay switched on)

3)

Table 11: Signal function in WIEGAND operating mode

Since the FW version 5.09 the reading synchronization of a couple of TECHFASS readers
is implemented, enabling to cancel the mutual disturbance of the modules. The reader
module offers the Wiegand data interface synchronization in MASTER mode.

6.6.3 Wiegand input (entry reader)

The module can be configured into a mode of controlling the door from both sides (entry

reader mode).

In the entry reader mode an identification at an external reader connected via the

WIEGAND interface acquires a reason code 255; at the same time the reader module

operates standardly, the reason codes equal zero.

When the reader module operates in the entry reader operating mode, the I/O Port (tab. 6)
is used as an output for controlling the entry reader buzzer.

Since the FW version 5.09 the reading synchronization of a couple of TECHFASS readers
is implemented, enabling to cancel the mutual disturbance of the modules. The reader
module offers the Wiegand data interface synchronization in SLAVE mode.

The WIEGAND input and WIEGAND output operating modes are mutually exclusive.

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6.7 Programming mode

The module enters programming mode by reading one of the two programming cards
(cards “+” and “-“). The programming mode cannot be entered while the module is in
hardware address setting mode (for modules with HW address setting via the
communication line). The module’s functionality in programming mode can be seen in
pictures 4 a-d.

It is not possible to use time schedules when inserting cards in programming mode,
therefore cards are always valid.

6.7.1 Inserting cards into the reader’s memory

Follow these steps for inserting cards into the reader module’s memory:

Step 1 Step 2 Step 3

Read the programming card
for inserting: the reader goes
into programming mode.

One by one, read the cards
which are to be granted
access.

About 15 seconds after
inserting the last card the
reader module goes back
into standard operating

mode.

Pic.4 a): Inserting cards

6.7.2 Deleting cards from the reader’s memory

For deleting the cards from the reader module’s memory use following steps:

Step 1 Step 2 Step 3

Read the programming card
for deleting: the reader goes
into programming mode.

One by one, read the cards
which are to have their
access revoked.

About 15 seconds after
deleting the last card the
reader module goes back
into standard operating

mode.

Pic.4 b): Deleting cards

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6.7.3 Deleting cards „above or below“

If a user loses his ID medium, it is usually impossible to delete the ID from the memory with
the procedure described in the previous chapter, since the medium is no longer available
(with an exception of entering the code at the keypad). Following procedure can be used
for deleting such ID. The procedure requires using an ID medium, which was inserted right

before or right after the ID medium, which should be deleted.

Step 1 Step 2 Step 3

Read the programming card
for inserting: the reader goes
into programming mode,
which is indicated by slow
flashing of yellow LED.

Read the programming card
for inserting 5 times in a row;
the reader will go into

Deleting cards “above or
below” mode indicated by

fast flashing of yellow LED.

Read a card, which is
located in the module’s
memory right before or right

after the card you wish to

delete. After this step the
module quickly flashes with
yellow LED.

Step 4 - A Step 4 - B

Step 5

For deleting an ID located

right before the ID used in

precious step, read the
programming card for

deleting.

For deleting an ID located

right after the ID used in

precious step, read the
programming card for

inserting.

The reader module goes
back into standard operating

mode.

Pic.4 c): Deleting cards “above or below”

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6.7.4 Deleting all cards from the reader’s memory

Follow these steps for deleting all cards from the reader module’s memory:

Step 1 Step 2 Step 3

Read the programming card
for deleting: the reader goes
into programming mode.

Read the programming card
for deleting 5 times in a row;
the reader will erase all cards
from its memory.

The reader module goes
back into standard

operating mode.

Pic.4 d): Deleting all cards

6.7.5 Recommended method for access rights management (using prog. cards)

In case of managing access rights of plenty of users (using programming cards only), it is
appropriate to establish a table, which summarizes operation with the reader module
memory. All operations (adding and deleting cards) should be stored in the table. Following
example shows correct usage of the programming cards and proper filing of the actions:

 Inserting 5 new cards using the procedure from chapter 6.7.1 – Read + (inserting)

programming card, read cards 1-5, after 15 s the programming mode is exited,
create a table.

Pic.4 e): Table after inserting 5 cards

 Card 3 gets lost – Delete it using the card 4, which is available, and using the

procedure from chapter 6.7.3 – Read + (inserting) programming card, then 5x +

(inserting) programming card again, then card 4, and finally – (deleting)
programming card. Register the change in your table.

Pic.4 f): Deleting card 3 using the card 4, table after deleting card 3

position card
1 card 1
2 card 2
3 card 3 (lost)
4 card 4 (available)
5 card 5

position card
1 card 1
2 card 2
3 card 3
4 card 4
5 card 5

position card
1 card 1
2 card 2
3 card 3
4 card 4
5 card 5

5x

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 Card 4 gets lost – Delete it using the card 2, which is available, and using the

procedure from chapter 6.7.3 – Read + (inserting) programming card, then 5x +

(inserting) programming card again, then card 2, and finally + (inserting)
programming card again. Register the change in your table.

Pic.4 g): Deleting card 4 using the card 2, table after deleting card 4

 It is necessary to add another card (card 6). We proceed with the procedure from

chapter 6.7.1 again. 1 – Read + (inserting) programming card, read cards 1-5, after
15 s the programming mode is exited. Register the change in your table.

Pic. 4 h): Table after inserting card 6

A new card is always inserted at the position after the last inserted card. In case of deleting
all cards using the procedure described in chapter 6.7.4, it is necessary to create a new
filing table.

6.8 ID expiration function

This function is implemented since the FW version 5.0.

It is possible to set an Expiration date for every ID stored in the module. When the date
occurs, the ID becomes invalid (expired). The expiration evaluation is performed on every
date change in the module’s RTC and when the access rights are downloaded.

6.9 ID with Alarm flag function

This function is implemented since the FW version 5.0.

It is possible so set an Alarm – ID flag for every ID stored in the module. When the ID is
read, relevant alarm is raised (and the alarm output is switched for preset time).

position card
1 card 1
2 card 2
3 card 3
4 card 4
5 card 5
6 card 6

position card
1 card 1
2 card 2 (available)
3 card 3
4 card 4 (lost)
5 card 5

position card
1 card 1
2 card 2
3 card 3
4 card 4
5 card 5

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6.10 Antipassback function

This function is implemented since the FW version 5.0.

The Antipassback function is defined in two ways:

 Time APB – user cannot repeatedly use his ID for defined time
 Zone APB – user cannot repeatedly enter an area, where he is already present

The Antipassback function is used only for the users, whose access is driven by a time

schedule. The users with access always granted are not affected by the Antipassback

function.

The Antipassback flags for an ID can be reset by inserting the ID again with use of the

programming cards (offline solution). All Antipassback flags are also reset whenever new
access rights data are downloaded from the program.

Both Zone and Time Antipassback flags are written either immediately after an ID is read,
or after relevant door is opened (relevant input is disconnected).

6.10.1 Time Antipassback

The Time Antipassback is defined by the ABP timer initial value (in minutes), which is set to
the ID after passing at the reader module. If the users uses the ID at the address during the
timer for the ID is running, the Time APB alarm is raised. Following parameters affect the
Time APB function:

 APB timer initial value – defines the Time APB flag (timer) value set to the ID after

passing at the reader module. If a user uses the ID again before the timer elapses,
Time APB alarm is raised.

 Open door after APB time alarm – if the option is enabled, the Door open function is

performed after the Time APB alarm is raised.

 Clear opposite APB flag – if the option is enabled, passing at the reader module

causes a reset of the APB timer flag at the opposite side (entry reader) of the module.

In case of using the operating mode Standard with Entry reader the time APB function is
evaluated at the entry reader only.

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6.10.2 Zone Antipassback

The Zone Antipassback is defined by enabling the option for the relevant address. The
Zone APB flag is set for the ID when passing at the reader module. If a user uses the ID
again when the Zone APB flag is set, the Zone APB alarm is raised. Following parameters
affect the Zone APB function:

 Enabled – enable/disable general Zone APB flag setting.
 Enable in offline mode – if the option is not set, the module operates in offline mode

like if the APB function was not implemented.

 Open door after APB Zone alarm – if the option is enabled, the Door open function is

performed after the Zone APB alarm is raised.

 Set opposite APB flag after APB alarm – if the Zone APB alarm is raised, the Zone

APB alarm flag is set for both directions (entry reader and the module itself) of the
module.

 Clear opposite APB flag – if the option is enabled, passing at the reader module

causes a reset of the Zone APB alarm flag at the opposite direction.

6.11 Disabling function

This function is implemented since the FW version 5.08.

The module disabling function can be set at the second input and at the third input / output
port. The logic of the function is individually configurable. The function is active whenever
one or both of the configured inputs are active.

The module behavior is as described below when the disabling function is active:

 User with access driven by a time schedule cannot run the door open function
 User with access always granted is not affected by the disabling function
 Remote door open function cannot be performed
 Remote identification with ID is disabled for users with access driven by a time

schedule

The disabling status changes and disabled actions are logged in the events archive.

6.12 Reading synchronization

Since the FW version 5.09 the reading synchronization of a couple of TECHFASS readers
is implemented, enabling to cancel the mutual disturbance of the modules. The reader
module offers to use the IO synchronization in both MASTER and SLAVE mode. The

input/output port 3 is used as the synchronization signal.

6.13 Online authorization

Since the FW version 5.11 the Online authorization of ID can be used in APS mini Plus
system. When the feature is used, the ID validity is resolved in connected PC. To be able
to use this authorization mode, the reader module has to be equipped with a MLO license.

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7 Simplified access rights evaluation

The model of access rights contains time schedules and a table of holidays. A block
diagram for access right evaluation can be seen in Pic.5.

Pic. 5: Simplified access rights evaluation

8 Useful links

 Wiring diagrams: http://techfass.cz/diagrams-aps-mini-plus-en.html
 Program equipment: http://techfass.cz/software-and-documentation-en.html

VALID

UNKNOWN

ID FOUND

ACCESS DRIVEN

BY TIME SCHED.

ACCESS ALWAYS

GRANTED

HOLIDAY?

ACCESS GRANTED

FOR HOLIDAY

AND ACTUAL TIME

ACCESS GRANTED

FOR ACTUAL
DAY & TIME

READING ID

YES NO

YES NO NO YES

INVALID

YES NO NO YES NO

YES