022 PETRO Gauge Veeder Root TLS4 Operators Manual

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Manual No: 577014-022

8601 Series Console
Site Prep Certification Manual

●

Revision: B

Notice
Veeder-Root makes no warranty of any kind with regard to this publication, including, but not limited to, the implied warranties of
merchantability and fitness for a particular purpose.
Veeder-Root shall not be liable for errors contained herein or for incidental or consequential damages in connection with the furnishing,
performance, or use of this publication.
Veeder-Root reserves the right to change system options or features, or the information contained in this publication.
This publication contains proprietary information which is protected by copyright. All rights reserved. No part of this publication may be
photocopied, reproduced, or translated to another language without the prior written consent of Veeder-Root.
Contact TLS Systems Technical Support for additional troubleshooting information at 800-323-1799.
DAMAGE CLAIMS / LOST EQUIPMENT
Thoroughly examine all components and units as soon as they are received. If any cartons are damaged or missing, write a complete
and detailed description of the damage or shortage on the face of the freight bill. The carrier's agent must verify the inspection and sign
the description. Refuse only the damaged product, not the entire shipment.
Veeder-Root must be notified of any damages and/or shortages within 30 days of receipt of the shipment, as stated in our Terms and
Conditions.
VEEDER-ROOT’S PREFERRED CARRIER
1.

Contact Veeder-Root Customer Service at 800-873-3313 with the specific part numbers and quantities that were missing or
received damaged.

Fax signed Bill of Lading (BOL) to Veeder-Root Customer Service at 800-234-5350.

Veeder-Root will file the claim with the carrier and replace the damaged/missing product at no charge to the customer. Customer
Service will work with production facility to have the replacement product shipped as soon as possible.

CUSTOMER’S PREFERRED CARRIER
1.

It is the customer’s responsibility to file a claim with their carrier.

Customer may submit a replacement purchase order. Customer is responsible for all charges and freight associated with
replacement order. Customer Service will work with production facility to have the replacement product shipped as soon as
possible.

If “lost” equipment is delivered at a later date and is not needed, Veeder-Root will allow a Return to Stock without a restocking fee.

Veeder-Root will NOT be responsible for any compensation when a customer chooses their own carrier.

RETURN SHIPPING
For the parts return procedure, please follow the appropriate instructions in the "General Returned Goods Policy” pages in the
"Policies and Literature" section of the Veeder-Root North American Environmental Products price list. Veeder-Root will not accept
any return product without a Return Goods Authorization (RGA) number clearly printed on the outside of the package.

Table of Contents

Introduction
Related Documents ...................................................................................................................................1
Documents Required to Install Equipment ................................................................................1
Related Manuals .........................................................................................................................................1
Safety Symbols ...........................................................................................................................................2
National Electrical Code Compliance ...................................................................................................3
Probe- and Sensor-to-Console Wiring .......................................................................................3
AC Power Wiring.............................................................................................................................3
DC Power Wiring ............................................................................................................................3

Component Identification
Console Wiring Inputs

.........................................................................................4

................................................................................................7

Probe And Sensor Field Wiring

..........................................................................10

Console Installation
Console Location .................................................................................................................................... 11
Mounting the Console ........................................................................................................................... 11
Wiring the Console ................................................................................................................................ 11
AC Input Power............................................................................................................................. 12
DC Input Power ............................................................................................................................ 13

Probe and Sensor Conduit Installation
Wiring Run Methods .............................................................................................................................. 14
Buried Rigid Conduit ................................................................................................................... 14
Direct Burial Cable ....................................................................................................................... 15

Initial Startup Procedure
TLS4 GUI Navigation................................................................................................................... 17
TLS4 Initial Setup ......................................................................................................................... 17

Appendix A: Universal Sensor Mounting Kit
Introduction .............................................................................................................................................A-1
Product Description ..............................................................................................................................A-1
Kit Contents ..................................................................................................................................A-1
Mounting Sensors .................................................................................................................................A-1

Appendix B: Enabling The TLS4 To Function As A Datalogger
BIR Protocol DIM .................................................................................................................................. B-1
POS System Requirements and Limitations ........................................................................ B-1
Datalogger Site Connection and Initialization ................................................................................ B-1

Figures
Figure 1.
Figure 2.
Figure 3.
Figure 4.
Figure 5.
Figure 6.
Figure 7.
Figure 8.
Figure A-1.
Figure A-2.

TLS4/8601 Series Console - Dimensions .......................................................4
Component Locations (Front Cover Removed) ..............................................5
Component Locations Underside Of Display/CPU Board Ass’y. ....................6
Field Wiring Probe And Sensor Cables To Console Cables .........................10
Wiring AC Power to the Console ...................................................................12
Wiring DC Power to the Console ..................................................................13
Example Probe Wiring Run in Buried Rigid Conduit .....................................15
Example Probe Wiring Run via Direct Burial Cable ......................................16
Universal Mounting Kit Contents ................................................................. A-1
Mounting the Sensor in a Stabilizer Tube to a Support Bar ........................ A-2

iii

Table of Contents

Figure A-3.
Figure A-4.
Figure A-5.
Figure A-6.
Figure A-7.
Figure B-1.
Figure B-2.
Figure B-3.
Figure B-4.
Figure B-5.
Figure B-6.
Figure B-7.
Figure B-8.
Figure B-9.
Figure B-10.
Figure B-11.
Figure B-12.
Figure B-13.
Figure B-14.
Figure B-15.
Figure B-16.
Figure B-17.
Figure B-18.

Mounting the Sensor in the Dispenser Pan ................................................. A-3
Mounting the Sensor using Two Extension Brackets .................................. A-4
Mounting the Sensor to Rigid Conduit ........................................................ A-5
Mounting the Sensor to a Supply Line ........................................................ A-6
Mounting the Sensor in a Containment Sump ............................................ A-7
Configuring LAN .......................................................................................... B-2
Local Area Connection ‘X’ Properties dialog box selections ....................... B-3
Internet Protocol Version 4 (TCP/IPv4) Properties dialog box selections ... B-4
Ethernet Port Setup ..................................................................................... B-6
Serial Port Setup, SERIAL 2- POS ............................................................. B-6
Entering ATG Command ............................................................................. B-7
Deleting ATG Command ............................................................................. B-7
TDIM Setup ................................................................................................. B-8
Entering Host name .................................................................................... B-8
Verifying DIM Communication ..................................................................... B-9
Entering Date and Time .............................................................................. B-9
Selecting System Units ............................................................................... B-9
Switching to DL Setup ............................................................................... B-10
Example FMS ID Entry .............................................................................. B-10
Inventory Command Results ..................................................................... B-11
POS Protocol Type Query ......................................................................... B-11
POS Protocol Type Results ...................................................................... B-11
FMS Heartbeat Screen ............................................................................. B-12

Tables
Table 1. TLS4 Wiring Inputs .....................................................................................................7
Table B-1. POS Systems Using V-R Protocol* ..................................................................... B-1
Table B-2. Datalogger User Interface Screens ..................................................................... B-5

Introduction
This manual assumes that you are installing the console in a new site (before pavement is put down and with no
wiring runs in place). Among the topics covered are:
• Related documents
• Installing the console
• Component locations
• Console specifications/features
• Connecting wiring from the AC power panel or DC power source
• Installing wiring conduit between the console and probes and sensors
If installing ATEX (European) approved Mag Probes use Manual No. 577014-031, if installing UL/cUL
approved Mag Probes use Manual No. 577013-744.

Related Documents
DOCUMENTS REQUIRED TO INSTALL EQUIPMENT
This equipment must be installed according to the applicable installation document:

Equipment

ATEX
Descriptive System

IECEx
Descriptive System

UL/cUL
Control Drawing

Document No.

Associated Apparatus
8601 Series Console

331940-017

331940-117

331940-018

Intrinsically Safe Apparatus for Wireless Applications
Tank Gauge Accessories

331940-005

331940-105

Related Manuals
577013-578 TLS Monitoring Systems Contractor’s Site Preparation Guide
576013-858 Direct Burial Cable Installation Guide
577013-034 TLS4 Quick Start Guide

331940-012

Introduction

Safety Symbols

Safety Symbols
The following safety symbols are used in this manual to alert you to important safety hazards and precautions.
EXPLOSIVE
Fuels and their vapors are extremely explosive if
ignited.

FLAMMABLE
Fuels and their vapors are extremely flammable.

ELECTRICITY
High voltage exists in, and is supplied to, the
device. A potential shock hazard exists.

TURN POWER OFF
Live power to a device creates a potential shock hazard. Turn Off power to the device and associated
accessories when servicing the unit.

OFF

READ ALL RELATED MANUALS
Knowledge of all related procedures before you begin
work is important. Read and understand all manuals
thoroughly. If you do not understand a procedure, ask
someone who does.

WARNING
Heed the adjacent instructions to avoid damage to
equipment, property, environment or personal
injury.

STATIC SENSITIVE COMPONENTS
Wear grounded anti-static wrist strap before handling the printed circuit boards and mounted components.

Introduction

National Electrical Code Compliance

National Electrical Code Compliance
The following information is for general reference and is not intended to replace recommended National Electric
Code (NEC) procedures. It is important for the installer to understand that electrical equipment and wiring located
in Class I, Division 1 and 2 installations shall comply with the latest appropriate Articles found in the National
Electric Code (NFPA 70), the Code for Motor Fuel Dispensing Facilities and Repair Garages (NFPA 30A), CEC
codes and all applicable local codes.

PROBE- AND SENSOR-TO-CONSOLE WIRING
Wire Type
To ensure the best operating systems available, Veeder-Root REQUIRES the use of shielded cable for all probes
and sensors regardless of conduit material or application. In these installations, shielded cable must be rated less
than 100 picofarad per foot and be manufactured with a material suitable for the environment, such as Carol™
C2534 or Belden™ 88760, 8760, or 8770.
Note: Throughout this manual, when mentioning any cable or wire being used for probe and sensor to console
wiring, it will be referring to shielded cable.
Wire Length
Improper system operation could result in undetected potential environmental and health hazards if the probe- or
sensor-to-console wire runs exceed 1000 feet. Wire runs must be less than 1000 feet to meet intrinsic safety
requirements.
Wire Gauges - Color coded
Shielded cable must be used in all installations. Sensor-to-console wires should be #14-#18 AWG stranded
copper wire and installed as Class 2 circuits. As an alternate method when approved by the local authority having
jurisdiction, #22 AWG wire such as Belden 88761 may be suitable in installations with the following provisions:
• Wire run is less than 750 feet
• Capacitance does not exceed 100 pF/foot
• Inductance does not exceed 0.2 μH/foot

AC POWER WIRING
Wires carrying 120 or 240 Vac from the power panel to the console should be #14 AWG (or larger) wire for line,
neutral and chassis ground (3); and 4 sq. mm, rated for at least 90°C, for barrier ground.

DC POWER WIRING
Wires carrying +24 and +5 Vdc from the DC power source to the console should be #14 AWG wire. For barrier
ground, 4 sq. mm wire, rated for at least 90°C.

Component Identification
Figure 1 through Figure 3 show assembly and component locations referenced in the troubleshooting section of
this manual.

2
3

13” (331mm)

8” (204mm)

5
3.5” (89mm)

CDIM 1

CDIM 2

SERIAL 1
EXPANSION

ETH 2
ETH 3
10

USB 1
USB 2
ETH 1

SERIAL 2

Figure 1. TLS4/8601 Series Console - Dimensions and Hardware

LEGEND FOR NUMBERED BOXES IN Figure 1
7. Communication ports - Standard:
Serial Ports 1 and 2
USB ports 1 and 2
Ethernet port 1
8. Communication ports - Optional:
Integrated Ethernet Switch ports 2 and 3
9. CDIM ports 1 and 2 (optional)
10.Expansion port

1. Power conduit knockout (1 top/1 bottom)
2. Console label contains input power ratings and Form and Serial
number
3. Intrinsically safe wiring conduit knockout (1 top/1 bottom)
4. Optional touch screen display
5. Status LEDs
6. T15 screws secure cover (2 places)

Component Identification

National Electrical Code Compliance

12
10

1
9
2

8
3

P2 RS232
P1 RS232

J38
J39

P2 RS485
P1 RS485

Figure 2. Component Locations (Front Cover Removed)

LEGEND FOR NUMBERED BOXES IN Figure 2
Reset (Acknowledge) button panel shown below):

1. AC or DC input power connector (as ordered)
2. High voltage output relay connector
3. Low voltage external input connector
4. T15 screw secures Display/CPU assembly

ALARM
RESET

5. Rechargeable 3V Lithium battery (battery backup)
6. RS232/485 selection jumpers SERIAL 1 (P1) and SERIAL 2
(P2)(factory set to RS232 position)
7. T20 screw secures Display/CPU assembly

11.Battery Isolator - Remove and discard prior to startup.
12.Mounting Holes - 0.28” (7mm) diameter holes - (2 hole versions upper left and lower right corners; 4 hole versions - all four corners) .

8. Optional 6-device intrinsically safe input connector (7 - 12)
9. Standard 6-device intrinsically safe input connector (1 - 6)
10.Optional Graphical User Interface (GUI) display (on non-display consoles, the GUI display is replaced with the Alarm

Component Identification

National Electrical Code Compliance

J40

J36

1
Tech

Figure 3. Component Locations Underside Of Display/CPU Board Ass’y.

LEGEND FOR NUMBERED BOXES IN Figure 3
1.
2.
3.
4.

J36 Mode Jumper (shown in Operating Mode Position)
SD Card
Software Features iButton
Display ribbon cable connector - Consoles with GUI display only

5. Acknowledge switch cable connector (J40) - Consoles without
GUI display only
6. 20-pin Display/CPU-to-USIOM board cable
7. Optional CDIM card

Console Wiring Inputs
This section details TLS4 power, communication, and device input connections and requirements.

Table 1. TLS4 Wiring Inputs
Connector

Description

Input Power

NOTE: The TLS4/8601 Series console is factory configured for either AC input power or DC input
power, but not both.
Universal AC power supply:100 to 249Vac, 50/60Hz, 2A maximum; or
DC power supply (optional): +24Vdc, 2A max. and +5Vdc, 4A max.
Um <= 250Vrms or 250Vdc

(Item 1, Figure 2)

240 Vac input: 1 - N/L2 (black), 2 - Ground (green), 3 - L1 (red)
1
2
3

120 Vac Input: 1 - N/L2 (white), 2 - Ground (green), 3 - L1 (black)
1
2
3

+24/+5 Vdc Input: 1 - +24 (white), 2 - Ground (green), 3 - +5 (black). NOTE: This input wiring diagram is
only for consoles with DC Power option.
1
2
3

HV Relay
Outputs

(Item 2, Figure 2)

2 Relay Outputs:
120/240 Vac, 5A; 30 Vdc, 5A;
Fuse ratings 5A, 250 Vac Type T (Slo-Blo)

2
1
022-9

Console Wiring Inputs

National Electrical Code Compliance

Table 1. TLS4 Wiring Inputs
Connector
Low Voltage
Inputs

(Item 3, Figure 2)

Description
1 Low Voltage Input:
Maximum contact closure circuit ratings 12 Vdc, 0.015A
Class I wiring is required for these 12 volt closure circuits.
Legend

Input

Dry Contact Switch

RTN

12V

PWR STAT

PWR INT

For Future Use

1
2
3
4

RS-232 Ports

2 optically isolated serial ports standard, labeled SERIAL 1 supporting full handshaking and SERIAL 2.

(Item 7 in Figure 1)

The RS-232 D-connector is a panel mount, 9-pin female type, wired in a Data Terminal Equipment (DTE) configuration. For example, any RS-232 port in any TLS consoles is also a DTE, therefore, a Null Cable is needed in order for
communication to happen between the two consoles.
A Data Communication Equipment (DCE) device such as a modem may be connected directly to the interface using
a straight-through cable (modem support may not be available on all ATGs). Handshake signals in the system are
configurable.
RS-232 signals are wired to the female D-connectors as follows:
SERIAL1 (Full Handshake)
6

Signal

Data Carrier
Detect

Data Set Ready

Received
Data

Request to Send

Transmitted
Data

Clear to Send

Data Terminal Ready

Ring Indicator

Signal
Ground

Signal

022-6

SERIAL 2
Pin

Signal

Received
Data

Transmitted
Data

4
5

022-6

Signal
Ground

Console Wiring Inputs

National Electrical Code Compliance

Table 1. TLS4 Wiring Inputs
Connector

Description

Ethernet Ports

3 Ethernet ports, labeled ETH 1 Standard, ETH 2 and ETH 3 (provided on an optional integrated switch) (Item 8 in
Figure 1)

CDIM Ports

Optional RJ-45/RJ-485 serial ports, labeled CDIM 1 and CDIM 2 (Item 9 in Figure 1)

USB Ports

2 USB ports, labeled USB 1 and USB 2 (Item 7 in Figure 1)

Expansion Port

10-pin connector VR bus, labeled EXPANSION (Item 10 in Figure 1)
Legend

Intrinsically Safe
inputs

Signal

Ground

-W

+24 Vdc

+15 Vdc

+Expansion Bus

Ground

– Expansion Bus

N/C

Expansion Reset

1 2 3 4 5 6 7 8 9 10

6 or 12 universal intrinsically safe inputs as ordered (Items 8 and 9 in Figure 2)
Item

Description

Typical 2wire device

Typical 3wire device

(+)

( ) 1

( )

(+)

( ) 2
(+)

( )

(+)

( ) 4
(+)

( ) 5
(+)

( ) 6

( )

(+)
(+)

( )

Probe And Sensor Field Wiring
Figure 4 contains diagrams for connecting, at the field junction box, cables from the probes and sensors to cables
from the console. Check diagrams closely for polarity requirements.

1/2'' rigid
conduit

1/2'' rigid
conduit
Black

Red
1

Green

Seal-off

TLS4
I.S.
Terminals

From
Sensor

White

Green

Seal-off

TLS4
I.S.
Terminals

From
Sensor

Black
White
2

Not used with
3-wire sensor

Epoxy sealed connections in a
weatherproof junction box

Vapor Sensor

Groundwater Sensor
1/2'' rigid
conduit

1/2'' rigid
conduit

White

Red

Black

Seal-off

TLS4
I.S.
Terminals

TLS4
I.S. 1
Terminals

From
Sensor

Red
2

Epoxy sealed connections in a
weatherproof junction box

Not used with
3-wire sensor

Seal-off

Black

Epoxy sealed connections in a
weatherproof junction box

4SITE Solid-State Discriminating Containment Sump Sensor
4SITE Solid-State Discriminating Dispenser Pan Sensor

Position Sensitive Interstitial Sensor for Steel Tanks
Interstitial Sensor For Steel Tanks
CSTP Liquid Switch

1/2'' rigid
conduit
White
TLS4
I.S. 1
Terminals

From
Sensor

Seal-off
Black

From
Sensor

Epoxy sealed connections in a
weatherproof junction box

Magnetostrictive Probe
Position-Sensitive Sensor
Solid-State Containment Sump Sensor
Sump Sensor
Solid-State Dispenser Pan Sensor
Solid-State Discriminating Interstitial Liquid Sensor For Fiberglass Tanks
Discriminating Containment Sump Sensor
Hydrostatic Sensors For Fiberglass Tanks
Interstitial Sensor For Fiberglass Tanks
Microsensor

Figure 4. Field Wiring Probe And Sensor Cables To Console Cables

Console Installation

WARNING
Explosive vapors or flammable liquids could be present near locations where fuels are
stored or being dispensed.
This console is not explosion proof. Do not install this console in a volatile, combustible,
or explosive atmosphere.
An explosion or fire resulting in serious injury or death, property loss and equipment
damage could occur if the console is installed in a volatile, combustible or explosive
atmosphere (Class I, Division 1 or 2).

Console Location
For console location, refer to the ‘System Consoles’ section of manual 577013-578 on the Veeder-Root Tech Docs
CD-ROM prior to installing the 8601 Series Console.

Mounting the Console
To mount the console remove the two T15 screws in the bottom of the cover (see Figure 1). As you lift up the
bottom of the cover it pivots on two tabs that project from the top of the console’s chassis into slots in the top of
the cover. Lift the cover off the chassis tabs and set it aside. Notice the corner mounting holes in the base of the
chassis (Item 12 in Figure 2). Locate the chassis on the wall in the desired mounting location, mark the hole
locations, drill the appropriate pilot holes; and using 1/4-inch (6mm) maximum fasteners (customer supplied),
attach the chassis to the mounting surface at all four locations.
Figure 1 shows the two designated knockouts through which power wiring can safely enter the console.

Wiring the Console
The 8601 Series Console can be operated using either AC or DC power.

WARNING
OFF

This console contains high voltages which can be lethal. It is also connected to low
power devices that must be kept intrinsically safe.

1. Turn power off at the circuit breaker. Do not connect the console AC power
supply wires at the breaker until all devices are installed.
2. Attach conduit from the power panel to the console's Power Area
knockouts only.
Connecting power wires to a live circuit can cause electrical shock that may result in
serious injury or death.
Routing conduit for power wires into the intrinsically safe compartment can result in fire
or explosion resulting in serious injury or death.

Console Installation

Wiring the Console

AC INPUT POWER
1. Check the Input power rating on the label affixed to the underside of the console to verify whether input power
requirements are 120 Vac or 240 Vac.
2. Pull four wires between the power panel and the console; three #14 AWG or larger color-coded wires for AC
line (hot), AC neutral and chassis ground; and one 4 sq. mm wire, rated for at least 90°C, for barrier ground.
3. Connect the input 120 or 240 Vac power wires as shown in Figure 5.

240 Vac

120 Vac

5
6
7

12
8

5
9
10

12
11

Figure 5. Wiring AC Power to the Console

LEGEND FOR NUMBERED BOXES IN Figure 5
1.
2.
3.
4.
5.
6.

7.
8.
9.
10.
11.
12.

Attach barrier wire to grounding clamp
Power connector conduit entry
Equipotential bonding conductor (4 sq. mm min.)
Earth ground
GND (green)
L1 (Red)

N/L2 (black)
(To 240 Vac breaker in power panel)
L1 (black)
N/L2 (white)
(To 120 Vac breaker in power panel)
Battery Isolator - Remove and discard prior to startup.

Console Installation

Wiring the Console

DC INPUT POWER
1. Check the Input Power Rating on the label affixed to the underside of the console to verify whether input
power requirements are +24Vdc and +5Vdc.
1. Pull three wires between the DC power source and the console; three #14 AWG or larger color-coded wires
for +24 Vdc, +5Vdc and Ground; and one 4 sq. mm wire, rated for at least 90°C, for barrier ground.
2. Connect the DC power wires as shown in Figure 6.

+24 and +5 Vdc

5
6
7

Figure 6. Wiring DC Power to the Console

LEGEND FOR NUMBERED BOXES IN Figure 6
1.
2.
3.
4.
5.

Attach barrier wire to grounding clamp
Power connector conduit entry
Equipotential bonding conductor (4 sq. mm min.)
Earth ground
GND (green)

6.
7.
8.
9.

+5 Vdc (black)
+24 Vdc (white)
To DC power source
Battery Isolator - Remove and discard prior to startup.

Probe and Sensor Conduit Installation

WARNING
Probes and sensors operate in areas where flammable liquids and explosive vapors
may be present.
Improper installation may result in fire or explosion causing serious injury or death.
Practice the following:

1. Read thoroughly and follow the instructions shipped with each probe and
sensor.
2. Probe and sensor wiring conduit must not contain any other wires.
3. Probe and sensor wiring and conduits must enter the console only
through their designated areas.
4. Power and communication wires must not enter the intrinsically safe
compartment of the console.

Wiring Run Methods
Two wiring run methods are commonly used for probes and sensors - Wiring pulled through buried, sealed 1/2”
conduit; or direct burial cable. NOTE: PVC conduit is an acceptable alternate where accepted by local codes [ref.
“National Electrical Code Compliance” on page 3 for more detail on cable requirements].

BURIED RIGID CONDUIT
The preferred method, especially in new sites before driveway surfaces are paved, is to pull probe and sensor
wiring through buried 1/2” rigid conduit [Figure 7].
Pull two or three conductors shielded cable (as required). Individual wires should be color-coded between the
console and the junction box at each probe and sensor location (do not gang wires together, i.e., splicing all sump
sensor + wires together to run one wire back to console). Use single lengths of wire with no splices to ensure
optimum signal strength.

Probe and Sensor Conduit Installation

Wiring Run Methods

3
4
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022-12

Figure 7. Example Probe Wiring Run in Buried Rigid Conduit

LEGEND FOR NUMBERED BOXES IN Figure 7
5. Epoxy seal per NFPA spec
6. 1/2'' rigid conduit (to console)
7. Tank

1. Weatherproof junction box with 1/2-inch N.P.T. threads (16
cubic inch minimum)
2. Cord grip seals
3. Splice Closure
4. Seal-Off

CAUTION: Since wires for multiple sensors may enter the console through a single conduit, it is recommended
that you use a different color-code for each wire or individually mark each wire to identify sensor inputs. Also, if the
intrinsically safe wires enter the building in a wiring trough, only Veeder-Root intrinsically safe wire can be in the
trough. Keep all low power (intrinsically safe) wiring isolated from high power wires in all wiring troughs.

DIRECT BURIAL CABLE
An alternative to trenching through existing pavement is to use direct burial cable. Before considering the direct
burial method, check to be sure that direct burial practices are acceptable by the authority having jurisdiction at
this location. The direct burial method requires grinding using an abrasive wheel, a 1/4” to 3/8” wide by 1-1/4”
deep groove (adding 1/4” of depth for each additional cable) in the pavement surface, laying Veeder-Root supplied
direct burial cable down in the bottom of the groove, laying an expanded polyethylene foam backer rod over the
cable(s), and then a placing a 1/4” to 1/2” bead of silicone sealant over the backer rod to within a minimum of 3/8”
below the pavement surface [see Figure 8].
If you decide upon the direct burial method, consult the direct burial cable installation manual for detailed
installation instructions (reference manual 576013-858).

Probe and Sensor Conduit Installation

Wiring Run Methods

7
8
2

5
6

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..
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..
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..
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.. . . .
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>3'' (76mm)

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022-13

Figure 8. Example Probe Wiring Run via Direct Burial Cable

LEGEND FOR NUMBERED BOXES IN Figure 8
8.
9.
10.
11.
12.
13.

1.
2.
3.
4.
5.
6.

Grade
Cord grip
Epoxy filled splice enclosure
Drill oversized hole in sump for DB cable
Dow Corning 890-SL silicone Pavement Sealant
Expanded polyethylene foam backer rod, e.g., Applied-Extrusion Technologies SOF ROD
7. Splice closure

Seal-off
Rigid conduit
Concrete
Asphalt
Earth
Tank

Initial Startup Procedure
Once the probes, sensors, communication devices, etc., are connected to the console, remove and discard the
backup battery isolator strip (item 11 in Figure 2).
Replace front cover. Attach a label to the breaker feeding the console. This allows others to know how to
disconnect power to the console when servicing the system. Communicate to facility personnel which breaker
feeds the console.
Switch the dedicated circuit breaker ON to apply power to the console.

TLS4 GUI NAVIGATION
If the operation of the TLS4 is unfamiliar, review the TLS4 Quick Help Guide (P/N 577014-034) or, after the home
screen displays, touch the Actions icon
, then the Help icon
to open the TLS4 console’s online help.
Once online help displays, touch the Show TOC link in the top left of the display to view the online help’s Table Of
Contents. Read the Welcome, Explanation of Screen Icons, How to Use On-Screen Keyboard and Using
Touchscreen with Help topics.

TLS4 INITIAL SETUP
In the online help Table Of Contents, touch the Configuration and Maintenance book
Console Setup Sequence topic and follow the console setup procedures therein.

and then open the Initial

Appendix A: Universal Sensor Mounting Kit

Introduction
This addendum describes installation procedures for the Universal Mounting Kit for Dispenser Pan and
Containment Sump Sensors, Part Number 331144-001.
Since you can use the Universal Mounting Kit in a variety of ways, only the most commonly used mounting
methods are described.

Product Description
The Universal Mounting Kit is compatible with most manufacturer’s dispenser pans and containment sumps and
provides added flexibility when mounting the sensors.
KIT CONTENTS
The Universal Mounting Kit, Part No. 331144-001 consists of:
Quantity

Description

Extension brackets (see Item 1, Figure A-1)

L-bracket (see Item 2, Figure A-1)

3/4-inch U-bolt (see Item 3, Figure A-1)

1-inch U-bolt (see Item 3, Figure A-1)

2-inch U-bolt (see Item 3, Figure A-1)

3/8-inch spring nut (see Item 4, Figure A-1)

3/8-16 X 7/8-inch bolt (see Item 4, Figure A-1)

1/4-20 nut

1/4-20 x 3/4-inch bolt

1/4 flat washer

1/4-20 x 1-1/2 inch machine screw (See Item 5, Figure A-1)

2-inch sensor clamp (See Item 5, Figure A-1)

1/4 X 1-inch spacer (See Item 5, Figure A-1)

4
5
sensors\unsnkt.eps

Figure A-1. Universal Mounting Kit Contents

Mounting Sensors
Depending on the type of pan you are using, you can configure the Universal Mounting Kit in several different
ways. Some of the more frequently used mounting methods are illustrated in the following figures using selected
components from the kit as required. The spacer for the1-1/2 inch machine screw is only needed with a stabilizer

A-1

Appendix A: Universal Sensor Mounting Kit

Mounting Sensors

tube to prevent excess clamping pressure on the sensor (see Figure A-2).

Support bar
Extender bracket
Sensor

3/8-16 x 7/8 hex bolt

3/8-16 Spring nut

1/4-20 x 3/4 hex bolt
w/ washer and nut
(not shown)

Sensor stabilizer tube
sensors\snstbtb.eps

Spacer
w/ 1/4-20 x 1-1/2" lg
machine screw and
washer and nut

Figure A-2. Mounting the Sensor in a Stabilizer Tube to a Support Bar

A-2

Appendix A: Universal Sensor Mounting Kit

Mounting Sensors

Support bar
1/4-20 x 3/4 hex bolt
w/ washer and nut
(not shown)

Sensor

3/8-16 Spring nut

Extender
bracket

Clamp

3/8-16 x 7/8 hex bolt

1/4-20 x 1-1/2
machine screw w/
washer and nut

sensors\mntsndp.eps

Figure A-3. Mounting the Sensor in the Dispenser Pan

A-3

Appendix A: Universal Sensor Mounting Kit

Mounting Sensors

3/8-16 Spring nut

Support bar
3/8-16 x 7/8 hex bolt

1/4-20 x 3/4 hex bolt w/
washer and nut

Extension
bracket

Sensor
Extension
bracket
Clamp

1/4-20 x 3/4 hex bolt
w/ washer and nut
(not shown)

1/4-20 x 1-1/2
machine screw w/
washer and nut

sensors\extbkt.eps

Figure A-4. Mounting the Sensor using Two Extension Brackets

A-4

Appendix A: Universal Sensor Mounting Kit

U-bolt

Mounting Sensors

U-Bolt

Rigid conduit

Sensor

1/4-20 x 3/4 hex bolt
w/ washer and nut
(not shown)

Clamp

L-bracket

1/4-20 x 1-1/2
machine screw w/
washer and nut

sensors\snlbkt.eps

Figure A-5. Mounting the Sensor to Rigid Conduit

A-5

Appendix A: Universal Sensor Mounting Kit

Mounting Sensors

Supply line
Sensor

Clamp
U-bolt

L-bracket

1/4-20 x 1-1/2
machine screw w/
washer and nut
sensors\snsupln.eps

1/4-20 x 3/4 hex bolt
w/ washer and nut
(not shown)

Figure A-6. Mounting the Sensor to a Supply Line

A-6

Appendix A: Universal Sensor Mounting Kit

Mounting Sensors

Containment sump
wall

Sensor
L-bracket

1/4-20 x 3/4 hex bolt
w/ washer and nut
(not shown)

Clamp

1/4-20 x 1-1/2
machine screw w/
washer and nut

sensors\sncntmnt.eps

Figure A-7. Mounting the Sensor in a Containment Sump

A-7

Appendix B: Enabling The TLS4 To Function As A Datalogger
This document explains how to enable a TLS4 to function as a Datalogger. A laptop, an ethernet crossover cable
and a FMS ID number will be required.
NOTE: Several of the steps below may have been completed when the TLS4 was originally setup, in which case,
you can verify the settings as you step through the complete enabling process.

BIR Protocol DIM
POS SYSTEM REQUIREMENTS AND LIMITATIONS
For sites using the Datalogger DIM, the Point of Sales (POS) system must conform to established Veeder-Root
protocol and allow the Datalogger to collect the metered sales data necessary for it to perform its Business
Inventory Reconciliation (BIR) and Wet Stock Management (WSM) tasks. This protocol is separate and distinct
from the inventory protocol commonly used by POS and other systems to collect inventory data from Veeder-Root
TLS consoles.
The following POS systems (Table B-1) are known to have implemented the Veeder-Root protocol and thus
support BIR protocol DIM (Dispenser Interface Module).
Table B-1. POS Systems Using V-R Protocol*
Forecourt Controller

Protocol Name

TLS-350R

TLS-450
X

Allied

Station Site Controller (SSC)

Gilbarco

T-4 (Australia)

PEC

8850

POSTEC

RCC

Wayne

Marketer 2000 (Sweden)

*When the proper hardware/software combinations are used.

Datalogger Site Connection and Initialization
After you are connected the Datalogger to the appropriate site equipment follow the steps below to setup the
Datalogger.
NOTE: You must wait at least 5 minutes after powering on the Datalogger before starting this procedure.
1. Using an ethernet crossover cable, connect a laptop PC to ethernet port ETH 1 on the Datalogger (see Figure
1 on page 1 of this manual).
2. You must configure the laptop’s wired integrated Local Area Network by clicking on the Windows Globe in the
lower right of the task bar, and typing in network connections in the ‘Search programs and files’ field and then
pressing Enter (see below):

B-1

Appendix B

Datalogger Site Connection and Initialization

Press Enter

click
type: network connections

3. NOTE: The screen shots contained in this appendix are for reference purposes only. The actual settings and
data shown in the following examples are dependent on the laptop or PC operating system used to
configure this hardware.

In the Network Connections screen, double click on the wired (not wireless) integrated Local Area
Connection. In the example below (Figure B-1), you would double-click Local Area Connection 2.

Figure B-1. Configuring LAN

4. When the selected Local Area Connection Properties dialog box opens make the selection shown in Figure B2.

B-2

Appendix B

Datalogger Site Connection and Initialization

First select this item
Second click Properties
button

Figure B-2. Local Area Connection ‘X’ Properties dialog box selections

5. When the Internet Protocol Version 4 (TCP/IPv4) Properties dialog box opens make the selections shown in
Figure B-3.

B-3

Appendix B

Datalogger Site Connection and Initialization

Click this
radio button

Enter this address
Default is 255.255.0.0
change to 255.255.255.0

Click OK button to save
changes, close his dialog
and return to the one
below:

Click Close button

Figure B-3. Internet Protocol Version 4 (TCP/IPv4) Properties dialog box selections

B-4

Appendix B

Datalogger Site Connection and Initialization

6. On the laptop, open an internet browser and enter the IP address https://169.254.21.12/GeneralSetup in
the browser’s address bar. When the login page displays, enter ‘guest’ for both User name and Password.
NOTE: The Datalogger simultaneously runs two applications; one programs the general communication protocols (GeneralSetup), and the other programs how the Datalogger gathers its information (DLSetup). Pressing
the blue arrow at the top middle of the screen will toggle you between the two programs (see Figure B-4). After entering selections/changes to fields on any page, click the Save button to save your entries, or Cancel to
discard them. Programming screens used to setup the Datalogger are listed in Table B-2.
Table B-2. Datalogger User Interface Screens
GeneralSetup
Application Pages

Communication
Setup

System Setup

Diagnostics

See
Example

Ethernet Port
Setup

Step 7.

Serial Port Setup

Step 8.

CDIM Setup

DLSetup
Application Pages
System Setup

See
Example

FMS Identification

Step 16.

Diag. use only

ATG Commands

Step 9.

TDIM Setup

Step 10.

DIM Commands

Step 11.

Site Id Server
Setup

Diag. use only

FMS Heartbeat

Step 19.

Hostname

Step 11.

ATG

Step 17.

Date and Time

Step 13.

POS

Step 18.

Units

Step 14.

DIM

Diag. use only

Alarm Filtering

Diag. use only

DIM Communications

Step 12.

Communication Testing

Ping
Traceroute
DB Backup
DB Restore
Diag. use only

Software Maintenance

Download New
Version
Activate/Revert
Upgrade Features

On the “Communication Setup” page (see Figure B-4), click on “Ethernet Port Setup” (1) and select the
Device type “ETH 1” (2) from the drop-down menu. In the IP Address Type field (3):
If the site is using a static IP address, select “Static IP”; and enter the IP address assigned by your network
administrator. Once this is complete, click the “Save” button to keep these settings (see example in Figure B4).
If the site is using a dynamic IP address, select “Dynamic IP” (the remaining parameters will auto-fill once the
Datalogger is reconnected to the site network). Click “Save” (4) to accept your entries.
NOTE: If you receive an error message after clicking “Save”, click “OK” and refresh the page.

B-5

Appendix B

Datalogger Site Connection and Initialization

Click this arrow to switch between the
GeneralSetup and DLSetup applications

ETH 1

Figure B-4. Ethernet Port Setup

8. On the Serial Port Setup page, in the “Device” field, select “SERIAL 2”. Use this connection for the
connection to the POS, and enter “POS” for the Label. Set the correct communications parameters for the
POS using the drop down menus. For HandShaking, select “No Hand Shaking”.Click the “Save” button to
keep these settings (see example in Figure B-5).
.

SERIAL 2:POS

Recommended Baudrate

Select No

Figure B-5. Serial Port Setup, SERIAL 2- POS

9. Go to the “DLSetup” application by clicking on white arrow in blue circle top center of screen (see Figure B6), and under “System Setup”, click on “ATG Commands (1 in Figure B-6)”. Then click on the “+ Add New
Command” text at top right of screen (2 in figure). When the Add Command dialog box appears enter the
command “i@C300”, add the Description “DIM_EVENTS”, set the Repeat Interval to “60” (3 in figure) and
click Save (4 in figure).

B-6

Appendix B

Datalogger Site Connection and Initialization

i@C300

DIM_EVENTS
60

4
Figure B-6. Entering ATG Command

Click on the DIM Command page and then click on the trash can icon on the right end of the i@C300 command
line to delete the i@C300 command (see Figure B-7). Jump back to the “General Setup” application by clicking on
arrow top center of screen.

Click to jump to the GeneralSetup application

Select
Click and delete

Figure B-7. Deleting ATG Command

10. Select “TDIM” set-up. Select “TDIM (ETH1)” from the drop-down menu. On the “TDIM Enable” drop down,
select “TRUE” and type in a label (maximum of 20 characters). Then select the DIM protocol being used and
click “Save”. Accept the default Listen Port (unless there is a conflict with another device) and select the
desired units (see example in Figure B-8). Once this is complete, click on “Save” to keep these settings.

B-7

Appendix B

Datalogger Site Connection and Initialization

Select

TDIM (ETH1)

Select True
Enter label
Accept default unless there is a conflict
Select DIM Protocol
Enter desired units

Select

Figure B-8. TDIM Setup

11. Select the “System Setup” page and type in the Host name and then click the “Save” button (see example in
Figure B-9). It is recommended that you use the network name assigned by the network administrator or some
other name that identifies the location. While on this page click the Diagnostic Page link (bottom Left).

First select
System Setup
Page
Click on
host name
to open this
page

Enter Host name
(e.g., Site Name)

After saving the “Hostname” entry, click on the “Diagnostics” link
to verify DIM communications
Figure B-9. Entering Host name

12. In the “Diagnostics” page (lower left in above figure), click on “DIM Communications” to verify that the DIM
communications are successfully being recorded by the Datalogger. Any transactions occurring after the
Datalogger was configured will be shown on the screen (see example in Figure B-10).

B-8

Appendix B

Datalogger Site Connection and Initialization

Click back
arrow to return
to System Setup screen

Select

Figure B-10. Verifying DIM Communication

13. From the System Setup menu, select Date and Time link to access the current date/time entry screen (see
example in Figure B-11).
.

Click on
Date and Time
to open this
page

Click on this button and
select the site’s time zone
Click the down arrow to open the date
and time calendar. Select the current
date and time.

Click Save
to accept

Figure B-11. Entering Date and Time

14. From the System Setup menu, click on the Units page(1), select the desired units (2), click Save (3) (see
example in Figure B-12).
.

2
1
3
Figure B-12. Selecting System Units

B-9

Appendix B

Datalogger Site Connection and Initialization

15. Click on arrow just to the left of the date to switch to DLSetup application (see Figure B-13).
Click on this arrow icon to jump to DLSetup

Figure B-13. Switching to DL Setup

16. Select the “FMS Identification” screen and enter the six-digit FMS site identification number. Then click on the
“Save” button (see Figure B-14).

Enter applicable FMS ID
Select
Communication
testing Link at
bottom of this
column

Figure B-14. Example FMS ID Entry

17. Wait at least 30 seconds from the completion of the previous step to allow for the system to re-initialize with
the new settings. Then click on the “Communication Testing” link at the lower left bottom of the System Setup
column (see above figure), then click on “ATG”. Click on the “Inventory” button, which will enter the command
“I20100”. After several seconds, a Response should appear providing the current inventory data from the ATG.
If no response is received, there is a problem in the setup parameters.

B-10

Appendix B

Datalogger Site Connection and Initialization

Select

Click on Inventory button

Figure B-15. Inventory Command Results

18. Click on “POS” to detect the POS protocol. Click the “START” button next to “Auto Detect Protocol” and wait
for the Protocol Type to appear (see example in Figure B-16.

Click on Start button
Select
Figure B-16. POS Protocol Type Query

Verify that this is the correct protocol that was entered in the DIM setup in Step 10. Then click on the “Stop”
button (see example in Figure B-17).

Click Stop button when done

Figure B-17. POS Protocol Type Results

19. The Datalogger should now be configured to collect inventory and transactional data, which will be
periodically retrieved by FMS. To verify connectivity with FMS, reconnect the Datalogger to the network or cell
modem. Go to the “DLSetup” application’s Communication Testing screen, click on “FMS Heartbeat”, then
click on the “Send Heartbeat” button (see Figure B-18). Wait for the “Response” text to indicate PASS or

B-11

Appendix B

Datalogger Site Connection and Initialization

FAIL. A PASS confirms that the Datalogger is successfully communicating with FMS. A FAIL indicates that the
connection has failed and you will need to contact FMS or the network administrator for troubleshooting
assistance.

Click to test

Select
Test results

Figure B-18. FMS Heartbeat Screen

IMPORTANT! Connectivity between the Datalogger and FMS must be verified prior to completing the
installation.
Return your laptop PC to the network settings originally set prior to the changes you made in Step 5.

B-12

For technical support, sales or
other assistance, please visit:
www.veeder.com

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