Checkpoint Systems STRATAGX User Manual

Checkpoint Systems Inc

User Manual

Download: Checkpoint Systems STRATAGX User Manual
Mirror Download [FCC.gov]Checkpoint Systems STRATAGX User Manual
Document ID98008
Application IDAE3BXSs3McEmO56g2Dsj1Q==
Document DescriptionUser Manual
Short Term ConfidentialNo
Permanent ConfidentialNo
SupercedeNo
Document TypeUser Manual
Display FormatMicrosoft Word - pdf
Filesize199.72kB (2496513 bits)
Date Submitted2000-04-27 00:00:00
Date Available2000-06-09 00:00:00
Creation Date2000-04-27 14:18:43
Producing SoftwareAcrobat Distiller 4.0 for Windows
Document Lastmod2000-04-27 14:18:45
Document TitleUser Manual

NOTICE TO PERSONS RECEIVING THIS DRAWING
AND/OR TECHNICAL INFORMATION:
Checkpoint Systems claims proprietary rights to the material disclosed hereon.
This drawing and/or technical information is issued in confidence for engineering
information only and may not be reproduced or used to manufacture anything
shown or referred to hereon without direct written permission from Checkpoint
Systems to the user. This drawing and/or technical information is the property
of Checkpoint Systems and is loaned for mutual assistance, to be returned
when its purpose has been served.
Title:
TUNING PROCEDURE
TR4022
THIS DRAWING AND/OR TECHNICAL INFORMATION IS THE
PROPERTY OF CHECKPOINT S YS TEMS , INC.
Rev
01
Description
ECN
USED ON
Revisions
Date
03/28/2000
Engineer
D. MERVA
Rev
Doc Spec:
Date:
Dwn: J. IANNUZZI
Date: 03/29/2000
Chk: J. HUG
Date: 03/29/2000
Eng: D. MERVA
Date: 03/29/2000
Appd: E. ECKSTEIN
Date: 03/29/2000
Revisions
Description
Date
Size
Approved
Scale: N/A
Checkpoint Systems, Inc. 2000
Page
of
20
TUNING PROCEDURE TR4022
TABLE OF CONTENTS
1.0 INTRODUCTION ..........................................................................................................3
2.0 SYSTEM DESCRIPTION .............................................................................................3
3.0 SWITCH SETTINGS .....................................................................................................4
4.0 LED DEFINITIONS.....................................................................................................10
5.0 POTENTIOMETER ADJUSTMENT...........................................................................11
6.0 AUXILIARY CONNECTOR .......................................................................................12
7.0 SCREENS....................................................................................................................13
7.1 Frame Field Display Area............................................................................................................... 14
8.0 TUNING.......................................................................................................................19
8.1 Jumper Setup .................................................................................................................................. 19
8.2 Group Addressing (VERY IMPORTANT)..................................................................................... 19
8.3 Slaving ............................................................................................................................................ 19
____________________________________________________________________________________________________________________________
CHECKPOINT SYSTEMS, INC. CONFIDENTIAL AND PROPRIETARY INFORMATION, FOR INTERNAL USE ONLY.
Rev. 00
Page 2
TUNING PROCEDURE TR4022
1.0
INTRODUCTION
This document describes the procedures required to properly tune a Strata System with the
TR4022 board. Many of the adjustments for the Strata are pre-tuned during the manufacturing
test process therefore adjustments required in the field have been minimized.
Adjustments such as center frequency and sweep are preset for 8.2 Mhz operation. If the system
is required to detect a different frequency tag the sweep range will need to be readjusted by the
installer.
Once properly configured, if poor performance results, the CSE should direct their efforts toward
finding the source of the interference in the environment. Several test signals are provided by the
TR4022 board, which may be viewed on an oscilloscope. These signals allow the CSE to identify
and measure ambient noise levels, resonances and other sources of environmental interference.
The DSP (digital signal processor) system automatically subtracts stationary resonances seen by
the antennas. The system offers flexibility to adjust for these circumstances. However, the
solution for environmental problems, is to determine the environmental problems and resolve
them. The options for adjusting to environmental problems are performed both in the analog and
digital realm by the technician. The analog solutions are reducing power on the transmit antennas
(2-loop and/or 3-loop), reduce the baseband gain, and adjust the sweep. In the digital toolbox
there are four user selectable filter parameters. These tools should be used only after the CSE has
attempted to correct the environment.
The Strata system is powered by a +24Vdc power supply, P/N 121878. This power supply can
power up to a maximum of three antennas.
2.0
SYSTEM DESCRIPTION
The Strata system is a transceiver design using both a 3-loop, 2-loop, and a 1-loop antenna design.
The Strata alternates between using the 2-loop antenna and the 3-loop antenna. The 1-loop
antenna is used as a shield that is tied to ground. This technique provides the system with
different views of the detection field allowing the system to improve detection by minimizing the
holes typically found at the crossbars of typical swept antennas.
During an antenna’s cycle, the system performs two “blasts” which are called a “bin”. There are
sixteen bins per frame. A bin consists of two “noise” cycles and two blast cycles, a blast is a
transmit cycle and then a receive cycle. During the noise cycle, the system is not transmitting,
only receiving ambient noise. This allows the system to establish the baseline noise level of the
environment for later comparison. The system then transmits or “pulses” the field and then
receives or “listens” for an echo of a tag signal. This frame is repeated on the other antenna. A
tag response need only be present on one of the antennas to cause an alarm. In effect the system
provides the best of both worlds, a 2-loop and 3-loop design.
____________________________________________________________________________________________________________________________
CHECKPOINT SYSTEMS, INC. CONFIDENTIAL AND PROPRIETARY INFORMATION, FOR INTERNAL USE ONLY.
Rev. 00
Page 3
TUNING PROCEDURE TR4022
The switching between antenna loops minimizes the size of detection holes at the null points of
the RF field.
3.0
SWITCH SETTINGS
Table 1 explains each of the jumpers on the TR4022 board and 4.0 explains the switches on the
TR4022 board that must be configured before the system will operate. The illustrations on the
next pages shows the position of the jumpers, switches, and potentiometers on the TR4022 board
used during configuration. The top of the shield is held with 4 thumb turn screws. With the top of
the shield removed all the switches can be set without removing the electronics from the antenna.
If for some reason the circuit board needs to be removed from the antenna housing, remove the
three mounting screws from the backside of the board housing. Removing the rear cover of the
antenna assembly can access them. Before completely removing the electronics package from the
antenna loosen the screw near the TX1 and TX2 antenna connector and remove the spade lug.
MAKE SURE WHEN REINSTALLING THE ELECTRONICS PACKAGE THAT THE SPADE
LUG FROM THE SHORTED TURN IS REINSTALLED IN THE SAME PLACE.
____________________________________________________________________________________________________________________________
CHECKPOINT SYSTEMS, INC. CONFIDENTIAL AND PROPRIETARY INFORMATION, FOR INTERNAL USE ONLY.
Rev. 00
Page 4
TUNING PROCEDURE TR4022
Thumb
screws for
top cover
Spade lug for
shorted turn
attaches here
Slave In/Out
Connections
____________________________________________________________________________________________________________________________
CHECKPOINT SYSTEMS, INC. CONFIDENTIAL AND PROPRIETARY INFORMATION, FOR INTERNAL USE ONLY.
Rev. 00
Page 5
TUNING PROCEDURE TR4022
Auxiliary
Connector
DS1 –DS7
SW6
DS8 – DS10
SW7
Sounder
Volume
R89
Baseband
Gain
DS11 Power
SW 5 Group Address
SW 4
& Q Selection
DAC
TP16
Antenna
Connections
TX1 & TX2
Power Adjust
SW 1,2,3
+24 VDC
In/Out
____________________________________________________________________________________________________________________________
CHECKPOINT SYSTEMS, INC. CONFIDENTIAL AND PROPRIETARY INFORMATION, FOR INTERNAL USE ONLY.
Rev. 00
Page 6
TUNING PROCEDURE TR4022
Table 1: Jumper Definitions
Jumper
Label
Function
J12
Alarm Group
On: Will allow all the alarm group relays to
close when any pedestal within the group
alarms.
Off: Will not allow the alarm group signal to
pass to the next pedestal.
J16
(NO LABEL)
Engineering Jumper.
The access panel must be removed to set all of the above jumpers
Table 2: Pushbutton Switch Definitions
Switch
Function
SW-1
Reset software
SW-2
Screen select.
SW-3
Screen recall.
Depressing SW2 repeatedly will allow you to toggle from Screen 1 thru Screen 7. The second
pulse of the display found at the DAC test point TP16 identifies the screen being observed. See
Screen 1 on page 11.
Depressing and holding SW3 will cause the display at the DAC test point TP16 to show the results
of the last alarm for the screen being viewed.
____________________________________________________________________________________________________________________________
CHECKPOINT SYSTEMS, INC. CONFIDENTIAL AND PROPRIETARY INFORMATION, FOR INTERNAL USE ONLY.
Rev. 00
Page 7
TUNING PROCEDURE TR4022
Switch 4 – Bin Elimination, Filters, Transmitter setting and Alarm Cycle
Select
Switch 4-1
Switch 4-2
Switch 4-3
Switch 4-4
Switch 4-5
Switch 4-6
OFF
OFF
ON
OFF
Band Edge Bins
Eliminated
High Band Bins
Eliminated
ON
Low Band Bins
Eliminated
OFF
OFF
ON
OFF
OFF
ON
A FILTER
B FILTER
OFF – Software controlled transmitter
feature disabled
OFF - Short Alarm cycle
OFF
ON
ON
Full Band Detect
No Bin Elimination
ON
ON
C FILTER
D FILTER
ON - Software controlled transmitter feature
enabled
ON – Long alarm Cycle
Switch 5 – System transmit address, Merchandise/Access Card Rejection
SW 5-3
SW 5-2
SW 5-1
OFF
OFF
OFF
OFF
ON
ON
ON
ON
OFF
OFF
ON
ON
OFF
OFF
ON
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
Group
Addressing
Address 0
Address 1
Address 2
Address 3
Address 4
Address 5
Address 6
Address 7
Strata ‘98 Compatible (200hz, sweep down)
100 Hz, jitter enabled, random sweep
100 Hz, jitter enabled, random sweep
100 Hz, jitter enabled, random sweep
100 Hz, jitter enabled, random sweep
100 Hz, jitter enabled, random sweep
100 Hz, jitter enabled, random sweep
100 Hz, jitter disabled, linear sweep down
(Reserved, Engineering mode)
Systems that are ‘slaved’ together MUST have the group addressing switches set to the same
address. Conversely systems that are ‘unslaved’ but in close proximity must have unique
addresses. Address 0 is reserved for compatibility with older (Strata ’98) Strata systems and
should not be used in other installations. Address 7 is reserved for observing the analog input
signal.
SW 5-6
OFF
OFF
OFF
ON
ON
SW 5-5
OFF
OFF
ON
OFF
ON
SW 5-4
OFF
ON
OFF
OFF
ON
‘Q’ Band
All Tags - No M/A Rejection
410/710 Tags (Merchandise Rejection)
310/Access Card Rejection (Merchandise Rejection)
Hard Tags (Merchandise Rejection)
All Tags – (Merchandise Rejection)
____________________________________________________________________________________________________________________________
CHECKPOINT SYSTEMS, INC. CONFIDENTIAL AND PROPRIETARY INFORMATION, FOR INTERNAL USE ONLY.
Rev. 00
Page 8
TUNING PROCEDURE TR4022
Switch 6 – Master/Slave configuration
ON
OFF
Switch 6-1
Master (generates and
Slave (system must receive
distributes RF and Sync)
Sync signal)
The Master/Slave switch controls how the system will handle the sync and rf signals in
and out. A system MUST be in slave mode to use these input signals. In Master mode
these signals must be absent (refer to ‘Sync and RF indicators’ section).
ON
OFF
Switch 6-2
‘EVEN’ pedestal
‘ODD’ pedestal
The Even/Odd switch controls the transmit signal phase. This allows for a improved
received signal in the weaker carries. For rf slaved systems this switch is alternately set
even-odd-even-odd ….etc. For compatibility with older Strata systems ‘On’ is the same
as having the Even/Odd link installed.
Switch 7 – Sweep range select
The Strata 99-4022 board introduces the digital synthesis of the sweep frequencies from a DDS
chip. Without any test equipment the system can be setup without tuning for specific sweep
ranges.
SW 7-1
Off
Off
On
On
SW 7-2
Off
On
Off
On
Upper Band Edge
No shift
Shift down 200 kHz
No shift
Shift up 200 kHz
SW 7-3
Off
Off
On
On
SW 7-4
Off
On
Off
On
Lower Band Edge
No shift
Shift down 200 kHz
No shift
Shift up 200 kHz
SW 7-5
Off
Off
On
On
SW 7-6
Off
On
Off
On
Center Frequency Range Select
8.2 MHz (nominal 7.6-8.7 MHz)
8.6 MHz (nominal 7.8-9.4 MHz)
9.0 MHz (nominal 8.5-9.5 MHz)
9.5 MHz (nominal 8.9-9.8MHz)
Target
8.2 tags
8.2 and 9.0 tags
9.0 tags
9.5 tags
____________________________________________________________________________________________________________________________
CHECKPOINT SYSTEMS, INC. CONFIDENTIAL AND PROPRIETARY INFORMATION, FOR INTERNAL USE ONLY.
Rev. 00
Page 9
TUNING PROCEDURE TR4022
4.0 LED DEFINITIONS
System Status Indicators
DS1 – Inhibit Indicator
This LED indicates that a condition exists that would prevent normal detection of a tag,
typically excessive environmental noise. (At the end of an alarm cycle the inhibit LED
will light momentarily)
DS2 – Alarm
This LED indicates the system is alarming (useful for when the sounder and lights are
disconnected).
DS3 - Heartbeat
This LED indicates the system is operating normally. This LED blinks at an approximate
1 Hz rate. If the led is not blinking, it is a catastrophic failure and the board should be
replaced.
DS4 – Transmitter Status
This LED indicates the ‘power’ level of the transmitter, this led is normally on. When the
system detects an event above the alarm threshold it reduces the transmitter power output
and extinguishes the led.
DS5, DS 6 – Spare
(During development DS5 indicates the status of the external sync on power up)
(During development DS6 indicates the status of the external rf on power up)
DS7 – Q Disqualification Indicator
This LED indicates the system has detected a resonance however the ‘Q” of the resonance is
either above or below the limits selected by the ‘Q’ qualification switches.
Internal and external Sync and RF indicators – DS8, DS9, and DS10
On power up or reset the system ‘reads’ the sync, rf, and switch status and configures the
board appropriately. The configuration algorithm is as follows.
M/S
Switch
(SW 6-1)
Master
External
RF
Source
Absent
External
Sync Source
Condition
Absent
Master
Master
Master
Slave
Slave
Absent
Present
Present
Absent
Absent
Present
Absent
Present
Absent
Present
Slave
Slave
Present
Present
Absent
Present
OK – self generating sync and RF
(system is a master)
ERROR
ERROR
ERROR
ERROR
OK – External sync and Self
generating RF (system is a submaster)
ERROR
OK – External sync and External RF
(system is a slave)
DS10
(Master)
Green
On
DS9
(Sub-master)
yellow
Off
DS8
(Slave)
Red
Off
Off
Blink
Off
Blink
Off
Blink
Off
Off
Blink
On
Off
Off
Blink
Blink
Off
Blink
Off
Blink
Off
Blink
On
____________________________________________________________________________________________________________________________
CHECKPOINT SYSTEMS, INC. CONFIDENTIAL AND PROPRIETARY INFORMATION, FOR INTERNAL USE ONLY.
Rev. 00
Page 10
TUNING PROCEDURE TR4022
The system will not operate in any of the above ‘ERROR’ conditions. If an error
condition is indicated the transmitter will be shut down and the system will not ‘pass through’ the
sync pulse.
5.0
POTENTIOMETER ADJUSTMENT
The table below provides all of the adjustment pots on the TR4022 board along with their function
and how to adjust each pot. The factory should set all of these pots and field adjustment should
not be necessary.
Table 6: Definition of Adjustment Potentiometers
Label
TX1 PWR (R38)
Function
Proper Adjustment
2-loop Antenna Power
(TX1)
DO NOT ADJUST HIGHER, SET BY FACTORY
(to decrease power turn R38 clockwise)
TX2 PWR (R149)
3-loop Antenna Power
(TX2)
DO NOT ADJUST HIGHER, SET BY FACTORY
(to decrease power turn R149 clockwise)
BASEBAND GAIN
(R89)
Baseband Gain
Usually set fully CW (maximum gain) Adjust for a maximum of
1.5V on screen 1
VOLUME (R46)
Sonalert Volume
Adjust to desired level (CW-increases volume)
6.0
AUXILIARY CONNECTOR
____________________________________________________________________________________________________________________________
CHECKPOINT SYSTEMS, INC. CONFIDENTIAL AND PROPRIETARY INFORMATION, FOR INTERNAL USE ONLY.
Rev. 00
Page 11
TUNING PROCEDURE TR4022
LABEL
PIN NUMBER
FUNCTION
LT- 11
11
Negative of lights
GND 10
10
Board ground (be very careful what is connected to this pin, so as not to create
ground loops)
LT+ 9
Positive of lights
CNT 8 *
Relay normally open contact (closure upon alarm, same duration as lights)
CNT 7 *
Relay common contact
ALG 6 *
Relay normally open contact (triggered by alarm group, momentary closure)
ALG 5 *
Relay common contact
SPK+ 2
Positive of speaker
SPK- 1
Negative of speaker
____________________________________________________________________________________________________________________________
CHECKPOINT SYSTEMS, INC. CONFIDENTIAL AND PROPRIETARY INFORMATION, FOR INTERNAL USE ONLY.
Rev. 00
Page 12
TUNING PROCEDURE TR4022
7.0
SCREENS
Screen 1
Transmitter power
Bin 11
2 Loop
Screen 1
3 Loop
2 Loop
2 Loop Threshold
“ANALOG SCREEN”
3 Loop Threshold
Frame Field
Display Area
Current Activity
Display Area
____________________________________________________________________________________________________________________________
CHECKPOINT SYSTEMS, INC. CONFIDENTIAL AND PROPRIETARY INFORMATION, FOR INTERNAL USE ONLY.
Rev. 00
Page 13
TUNING PROCEDURE TR4022
7.1 Frame Field Display Area
The first two horizontal divisions of ALL screen displays contains the following
information:
(each vertical division has a value of 2 units)
Pulse 1 – Scope Trigger
Pulse 2 – Screen currently displayed (Previous page shows screen 1 being displayed)
Pulse 3 – Bin Number (Displays in which Bin the last alarm occurred)
Pulse 4 – Antenna (2 loop or 3 loop)
Pulse 5 – Transmitter Power Output (pulse at top of screen shows transmitter at full
Power)
The remaining display is the Current Activity Display Area for that screen.
____________________________________________________________________________________________________________________________
CHECKPOINT SYSTEMS, INC. CONFIDENTIAL AND PROPRIETARY INFORMATION, FOR INTERNAL USE ONLY.
Rev. 00
Page 14
TUNING PROCEDURE TR4022
Screen 2
Screen 2
Similar to early Strata DAC output for the 2 loop
Screen 3
Screen 3
Similar to early Strata DAC output for the 3 loop
____________________________________________________________________________________________________________________________
CHECKPOINT SYSTEMS, INC. CONFIDENTIAL AND PROPRIETARY INFORMATION, FOR INTERNAL USE ONLY.
Rev. 00
Page 15
TUNING PROCEDURE TR4022
SCREEN 2 AND SCREEN 3 (DETAILED FORMAT)
Blast 2 Alarm Plateau
Blast 1 Alarm Plateau
Blast 2 Bin to Bin Noise Plateau
Blast 1 & Blast 2 Alarm Thresholds (1 & 2 Locked)
Screen 4 (Engineering Use)
Blast 2 Bin to Bin Signal Plateau
Blast 1 Bin to Bin Noise Plateau
Blast 1 Bin to Bin Signal Plateau
Blast 2 Sample to Sample Noise Plateau
Blast 2 Sample to Sample Signal Plateau
Blast 1 Sample to Sample Noise Plateau
Blast 1 Sample to Sample Signal Plateau
Blast 2 Artifact Plateau
Blast 1 Artifact Plateau
Screen 2 and Screen 3 have similar formats providing further detail on their respective
2 Loop and 3 Loop DAC signals. Using Screen 2 as an example, the individual 2 Loop DAC
signals are detailed below. The same format would apply for the 3 Loop DAC signals found on
Screen 3.
____________________________________________________________________________________________________________________________
CHECKPOINT SYSTEMS, INC. CONFIDENTIAL AND PROPRIETARY INFORMATION, FOR INTERNAL USE ONLY.
Rev. 00
Page 16
TUNING PROCEDURE TR4022
“Q” of last alarm event
“Q” Shape of last event
Screen 5 (Engineering Use)
Screen 5
Live “Q” Qualification Display
____________________________________________________________________________________________________________________________
CHECKPOINT SYSTEMS, INC. CONFIDENTIAL AND PROPRIETARY INFORMATION, FOR INTERNAL USE ONLY.
Rev. 00
Page 17
TUNING PROCEDURE TR4022
Screen 6
3 Loop Threshold
2 Loop Threshold
Screen 6
2 Loop
Bin to Bin
3 Loop
Bin to Bin
____________________________________________________________________________________________________________________________
CHECKPOINT SYSTEMS, INC. CONFIDENTIAL AND PROPRIETARY INFORMATION, FOR INTERNAL USE ONLY.
Rev. 00
Page 18
TUNING PROCEDURE TR4022
Screen 7
Screen 7
Alarm Counter Display (above shows 29)
8.0
TUNING
8.1
Master / Slave Setup
The first step in the process for tuning a Strata pedestal with the TR4022 board is to
configure SW 6-1 according to how the pedestal is used in conjunction with other
pedestals. Configure either as a Master (ON) , or Slave (OFF). See Switch 6 –
Master/Slave configuration
8.2 Group Addressing (VERY IMPORTANT)
If the pedestal is working as part of a group of pedestals and connected together by the
interpedestal cable, set the group address at SW5-1, 2, 3 the same for all the pedestals in
the group. See Table 4. If a pedestal or group of pedestals is installed within 40’ of one
another then they may have to be slaved. When slaving is required the group address for
all the pedestals must be set the same.
8.3 Slaving
Slaving can be accomplished by attaching a two wire shielded cable with a drain wire to
the OUT connector J8 terminals 4 & 5 (drain wire to terminal 3) on the last pedestal in the
group to the IN connector J7 terminals 4 & 5 (drain wire to terminal 3) on the first
pedestal of the next group. NOTE: Polarity of the wires is important.
____________________________________________________________________________________________________________________________
CHECKPOINT SYSTEMS, INC. CONFIDENTIAL AND PROPRIETARY INFORMATION, FOR INTERNAL USE ONLY.
Rev. 00
Page 19
TUNING PROCEDURE TR4022
Apply 24 VDC power and check that DS11 is illuminated. DS3 should also be flashing
intermittently.
The transmitter output is preset at the factory and should not require adjustment.
Adjust the baseband gain potentiometer R89 for a noise level of less than 1.5V at Screen
1. This can be viewed by attaching an oscilloscope to the DAC test point TP16 and
selecting Screen 1 by depressing SW2. Scope setting: 1V/DIV; 200uS/DIV.
While viewing Screen 1 check the sweep setting of the transmitter for the frequency of the
tags being used. Standard retail systems are set to sweep from 7.6 – 8.7 Mhz. Using a
Grid Dip Meter placed flat on the floor approximately 1.5 to 2 feet from the antenna
check the sweep range by varying the frequency dial on the meter. The following
illustrations will give you an idea of what the induced signal from the Dip Meter will look
like at Screen 1.
8.7 Mhz
8.2 Mhz
7.6 Mhz
Set the detection parameters at SW4-3 & 4 to OFF/OFF. This is the same as the ‘C’ filter
on earlier Strata. If more filtering is required because of environmental influences see
Table 3.
Set SW5-4, 5, 6 for the type of tags being used. See Table 4. All OFF has no ‘Q’
qualification and thereby will not defeat alarms caused by merchandise.
Set the volume of the Sonalert by adjusting potentiometer R46.
No other adjustments are required. Test the system with several of the customers’ tags to
insure that the system is detecting properly. The sensitivity of the system may vary due to
environmental influences and the selection of the filtering set by SW4-3 & 4.
____________________________________________________________________________________________________________________________
CHECKPOINT SYSTEMS, INC. CONFIDENTIAL AND PROPRIETARY INFORMATION, FOR INTERNAL USE ONLY.
Rev. 00
Page 20

Source Exif Data:
File Type                       : PDF
File Type Extension             : pdf
MIME Type                       : application/pdf
PDF Version                     : 1.2
Linearized                      : Yes
Create Date                     : 2000:04:27 14:18:43
Producer                        : Acrobat Distiller 4.0 for Windows
Modify Date                     : 2000:04:27 14:18:45-04:00
Page Count                      : 20
EXIF Metadata provided by EXIF.tools
FCC ID Filing: DO4STRATAGX

Navigation menu