Specifications for subpart B of part 15 of FCC rule for a Class A computing
device.
Limited Warranty
ID TECH warrants this product to be in good working order for a period of
one year from the date of purchase. If this product is not in good working
order as warranted above, or should this product fail to be in good working
order at any time during the warranty period, repair or replacement shall be
provided by ID TECH.
This warranty does not cover incidental or consequential damages incurred
by consumer misuse, or modification of said product. For limited warranty
service during the warranty period, please contact ID TECH to obtain an
RMA number and instructions for returning the product.
ID TECH is a registered trademark of International Technologies & Systems
Corporation. MiniMag and Value through Innovation are trademarks of International Technologies & Systems Corporation.
Make sure the reader is properly cabled and is receiving sufficient power. To
read a card, slide the card, in either direction, through the reader slot, with the
magnetic stripe facing the magnetic head.
ELECTRICAL CHARACTERISTICS
DC Electrical Characteristics (25° C)
Item Symbol Min. Typical Maximum Unit Condition
Supply Voltage VCC 2.6 5.5 V
Maximum ICC 1.1 per track mA I
Active Supply + I
Current
Maximum 30 per track
Sleep Current I
Minimum High VCC-0.03 V I
Level Voltage VOH 2.3 V I
5.25 V I
Maximum Low VOL 0.1 V I
Level Voltage 0.22 V I
0.2 V I
+ I
SLEEP
MDL
µA I
MDH
=(VCC - VOL)/10K
MDL
=(VCC - VOH)/10K
MDH
=50µA
OUT
=3mA, VCC=2.6V
OUT
=6mA, VCC=5.5V
OUT
=50µA
OUT
=3mA, VCC=2.6V
OUT
=6mA, VCC=5.5V
OUT
Agency Approved
Specifications for subpart B of part 15 of FCC rule for a Class A computing
device.
Limited Warranty
ID TECH warrants this product to be in good working order for a period of
one year from the date of purchase. If this product is not in good working
order as warranted above, or should this product fail to be in good working
order at any time during the warranty period, repair or replacement shall be
provided by ID TECH.
This warranty does not cover incidental or consequential damages incurred
by consumer misuse, or modification of said product. For limited warranty
service during the warranty period, please contact ID TECH to obtain an
RMA number and instructions for returning the product.
ID TECH is a registered trademark of International Technologies & Systems
Corporation. MiniMag and Value through Innovation are trademarks of International Technologies & Systems Corporation.
61
OPERATION
Make sure the reader is properly cabled and is receiving sufficient power. To
read a card, slide the card, in either direction, through the reader slot, with the
magnetic stripe facing the magnetic head.
ELECTRICAL CHARACTERISTICS
DC Electrical Characteristics (25° C)
Item Symbol Min. Typical Maximum Unit Condition
Supply Voltage VCC 2.6 5.5 V
Maximum ICC 1.1 per track mA I
Active Supply + I
Current
Maximum 30 per track
Sleep Current I
Minimum High VCC-0.03 V I
Level Voltage VOH 2.3 V I
5.25 V I
Maximum Low VOL 0.1 V I
Level Voltage 0.22 V I
0.2 V I
+ I
SLEEP
MDL
µA I
MDH
=(VCC - VOL)/10K
MDL
=(VCC - VOH)/10K
MDH
=50µA
OUT
=3mA, VCC=2.6V
OUT
=6mA, VCC=5.5V
OUT
=50µA
OUT
=3mA, VCC=2.6V
OUT
=6mA, VCC=5.5V
OUT
61
DATA, CLOCK AND CARD PRESENT SIGNALS
The following is a timing diagram of typical DATA and CLOCK signals from
ID TECH electronics:
CLOCK: The CLOCK output is narrow pulse normally high, and goes low
when data is valid. The data level is stable at both the rising and falling edges
of the CLOCK pulse. CLOCK pulse width is typically 32 microseconds.
CARD PRESENT: The CARD PRESENT signal indicates data is being read
from the media being passed through the slot. It will not switch until flux
reversals (magnetic pulses) have been detected. After the flux reversals have
been detected, CARD PRESENT goes low. It stays low throughout the reading process and for 5 to 10 milliseconds, after the last flux reversal is read.
Typically, CARD PRESENT is used to signal the start and finish of a card
read. It may also be used as an interrupt signal for alerting the firmware that
the reading operation is in process.
DATA: The DATA output level indicates the value of the bit being decoded
during a CLOCK pulse. It is a low level for ones (1) and a high level for
zeros (0). The DATA signal’s level is steady at the rising and falling edges
and during the low level of the CLOCK pulse.
SPECIFICATIONS
Operating
Temperature: 32° F to 131° F (0° C to 55° C).
Storage
Temperature: -22° F to 158° F (-30° C to 70° C).
Humidity: Maximum 95% non-condensing.
MTBF: Read electronics, 21,000,000 POH.
Magnetic
Head Life: 1,000,000 passes minimum.
Rail and
Cover Life: 1,000,000 passes minimum.
Read Rate: Less than one error in 100,000 bits on cards conforming to ISO7811 1-5 (not induced by operator error).
Swipe Speed: 3 to 60 inches per second, bi-directional.
The following is a timing diagram of typical DATA and CLOCK signals from
ID TECH electronics:
CLOCK: The CLOCK output is narrow pulse normally high, and goes low
when data is valid. The data level is stable at both the rising and falling edges
of the CLOCK pulse. CLOCK pulse width is typically 32 microseconds.
CARD PRESENT: The CARD PRESENT signal indicates data is being read
from the media being passed through the slot. It will not switch until flux
reversals (magnetic pulses) have been detected. After the flux reversals have
been detected, CARD PRESENT goes low. It stays low throughout the reading process and for 5 to 10 milliseconds, after the last flux reversal is read.
Typically, CARD PRESENT is used to signal the start and finish of a card
read. It may also be used as an interrupt signal for alerting the firmware that
the reading operation is in process.
DATA: The DATA output level indicates the value of the bit being decoded
during a CLOCK pulse. It is a low level for ones (1) and a high level for
zeros (0). The DATA signal’s level is steady at the rising and falling edges
and during the low level of the CLOCK pulse.
SPECIFICATIONS
Operating
Temperature: 32° F to 131° F (0° C to 55° C).
Storage
Temperature: -22° F to 158° F (-30° C to 70° C).
Humidity: Maximum 95% non-condensing.
MTBF: Read electronics, 21,000,000 POH.
Magnetic
Head Life: 1,000,000 passes minimum.
Rail and
Cover Life: 1,000,000 passes minimum.
Read Rate: Less than one error in 100,000 bits on cards conforming to ISO7811 1-5 (not induced by operator error).
Swipe Speed: 3 to 60 inches per second, bi-directional.
The MiniMag™ compact magnetic stripe reader can read 1, 2, or 3 tracks of
magnetic stripe information. Power, when the MiniMag is connected to the
host via a decoder box, is obtained from the decoder box. Operating current is
4mA maximum for a 3-track configuration.
The electronics are based on ASIC technology designed for use with magnetic stripe cards encoded with F2F, ANSI, and ISO-conforming data. The
MiniMag reliably processes data encoded within ANSI and ISO standards, on
both high and low coercivity magnetic media. The circuit is designed to read
cards demagnetized down to 30% or 40% of ISO and ANSI signal levels, on
tracks 1/3 or 2 respectively. These reading characteristics are designed to
insure that the MiniMag will reliably read ‘real world’ cards.
In order to insure reliable reading under varying conditions, the MiniMag
will reliably read magnetic media at speeds from 3 inches per second (IPS)
to 60 IPS with typical accelerations. The output signals consist of a DATA
and CLOCK for each encoded track. The electronics operate from 2.6VDC
to 5.5VDC.
A CARD PRESENT signal is provided to alert the host when magnetic media
is passed through the reader. It is activated after magnetic pulses have been
detected and stays valid until after the last pulse is read. Media may be read
bi-directionally without any pre-conditioning of the electronics, although
the host system must employ enough data storage to ensure it can properly
recognize the decoded bit sequence.
The undecoded MiniMag reader is connected to a decoder box
using a 9-pin squeeze-to-release connector. Pinout designations
are as follows:
PIN COLOR SIGNAL
1 BLUE CLK1
2 BROWN DATA1
3 GRAY CLK3
4 YELLOW DATA2
5 GREEN CLK2
6 ORANGE DATA3
7 BLACK GND
8 WHITE CARD PRESENT
9 RED VCC
34
DESCRIPTION
The MiniMag™ compact magnetic stripe reader can read 1, 2, or 3 tracks of
magnetic stripe information. Power, when the MiniMag is connected to the
host via a decoder box, is obtained from the decoder box. Operating current is
4mA maximum for a 3-track configuration.
The electronics are based on ASIC technology designed for use with magnetic stripe cards encoded with F2F, ANSI, and ISO-conforming data. The
MiniMag reliably processes data encoded within ANSI and ISO standards, on
both high and low coercivity magnetic media. The circuit is designed to read
cards demagnetized down to 30% or 40% of ISO and ANSI signal levels, on
tracks 1/3 or 2 respectively. These reading characteristics are designed to
insure that the MiniMag will reliably read ‘real world’ cards.
In order to insure reliable reading under varying conditions, the MiniMag
will reliably read magnetic media at speeds from 3 inches per second (IPS)
to 60 IPS with typical accelerations. The output signals consist of a DATA
and CLOCK for each encoded track. The electronics operate from 2.6VDC
to 5.5VDC.
A CARD PRESENT signal is provided to alert the host when magnetic media
is passed through the reader. It is activated after magnetic pulses have been
detected and stays valid until after the last pulse is read. Media may be read
bi-directionally without any pre-conditioning of the electronics, although
the host system must employ enough data storage to ensure it can properly
recognize the decoded bit sequence.
HOST CONNECTIONS
The undecoded MiniMag reader is connected to a decoder box
using a 9-pin squeeze-to-release connector. Pinout designations
are as follows:
PIN COLOR SIGNAL
1 BLUE CLK1
2 BROWN DATA1
3 GRAY CLK3
4 YELLOW DATA2
5 GREEN CLK2
6 ORANGE DATA3
7 BLACK GND
8 WHITE CARD PRESENT
9 RED VCC
34
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