LMI Excel XR User Manual

Excel® XR Series

Electronic Metering Pump
PROFIBUS DP

Manual No.: 55313
Revision
Rev. Date: 0

Note:

and

enhanced control features see manual

-V0 Manual

: 04

3/2020

For enhanced control features see manual 54630

54772

Table of Contents

Precautions ....................................................................................... 3

1.0

2.0 Introduction ...................................................................................... 5

2.1 Specifications .................................................................................................. 5

3.0 Local Operation ................................................................................ 5

3.1 Display Navigation .......................................................................................... 6

3.2 Settings ........................................................................................................... 6

3.2.1 PROFIBUS Communication Settings ...................................................... 7

4.0 PROFIBUS Software Definition........................................................ 8

4.1 PROFIBUS Configuration................................................................................ 8

4.1.1 Modules 0-8: Basic Control ..................................................................... 8

4.1.2 Modules 9-24: Operation Mode Configuration......................................... 9

4.1.3 Modules 26-42: Timed Event Configuration .......................................... 10

4.1.4 Modules 43-57: Input/Output Configuration .......................................... 11

4.1.5 Modules 58-64: System Settings ........................................................... 12

4.1.6 Modules 65-68: Read-Only Version Information ................................... 13

4.1.7 Modules 69-94: Read-Only Information ................................................ 13

5.0 Cable Wiring ................................................................................... 16

6.0 Troubleshooting ............................................................................. 18

Table of Figures

Figure 1: Display Navigation ........................................................................................... 6

Figure 2: Settings ............................................................................................................ 6

Figure 3: Internal Termination Resistors ......................................................................... 7

Figure 4: Communication Settings .................................................................................. 7

Figure 5: Connector C Pin Diagram .............................................................................. 16

1.0 Precautions

The following precautions should be taken when working with LMI metering pumps.
Please read this section carefully prior to installation.

PRECAUTIONS

Protective Clothing

ALWAYS wear protective clothing, face shield, safety glasses and gloves when working on or
near your metering pump. Additional precautions should be taken depending on the solution
being pumped. Refer to Safety Data Sheets (SDS) precautions from your solution supplier.

Water Pre-Prime

All LMI pumps are pre-primed with water when shipped from the factory. If your solution is not
compatible with water, disassemble the Pump Head Assembly. Thoroughly dry the pump head,
valves, O-rings, balls and diaphragm. Reassemble head assembly tightening screws in a
crisscross pattern. Refill the pump head with the solution to be pumped before priming the
pump. (This will aid in priming.)

Liquid Compatibility

CAUTION: The evaluation performed by ETL was tested with water only. The pumps are
certified to NSF 61 with: sodium hypochlorite (12.5%), sulfuric acid (98.5%), sodium hydroxide
(50%), and hydrochloric acid (30%). Determine if the materials of construction included in the
liquid handling portion of your pump are adequate for the solution (chemical) to be pumped.
Always refer to the solution supplier and the LMI Chemical Resistance Chart for compatibility of
your specific LMI metering pump. Contact your local LMI distributor for further information.

Tubing Connections

Inlet and outlet tubing or pipe sizes must not be reduced. Outlet tubing size must not be
increased. Make certain that all tubing is SECURELY ATTACHED to fittings prior to start-up (see
section 3.3 Tubing Connections). ALWAYS use LMI supplied tubing with your pump, as the
tubing is specifically designed for use with the pump fittings. It is recommended that all tubing be
shielded and secure to prevent possible injury in case of rupture or accidental damage. If tubing
is exposed to sunlight, black UV resistant tubing should be installed. Check tubing frequently for
cracks and replace as necessary.

Fittings and Machine Threads

All fittings should be hand-tightened. An additional 1/8 - 1/4 turn after the fitting is snug may be
necessary to provide a leak-proof seal. Excessive overtightening or use of a pipe wrench can
cause damage to the fittings, seals, or pump head.

Most LMI pumps have straight screw machine threads on the head and fittings and are sealed
by the O-rings. DO NOT use PTFE tape or pipe dope to seal these threads. PTFE Tape may
only be used on NPT threads.

Plumbing

Always adhere to your local plumbing codes and requirements. Be sure installation does not
constitute a cross connection. Check local plumbing codes for guidelines. LMI is not responsible
for improper installations.

Back Pressure/Anti-Syphon Valve

PRECAUTIONS

If you are pumping downhill or into low or no system pressure, a backpressure /anti-syphon
device should be installed to prevent over pumping or syphoning. Contact your LMI distributor
for further information.

Electrical Connections

WARNING: To reduce the risk of electrical shock, the metering pump must be plugged into a
properly grounded grounding-type receptacle with ratings conforming to the data on the pump
control panel. The pump must be connected to a good ground. Do not use adapters! All wiring
must conform to local electrical codes. If the supply cord is damaged, it must be replaced by the
manufacturer, stocking distributor, or authorized repair center in order to avoid a hazard.

Fuse and Battery

CAUTION: Battery may explode if mistreated. Do not recharge, disassemble or dispose of in fire.
The battery and fuse are internal, factory serviceable parts, and must be replaced by the factory
or a qualified distributor with parts of the same type and rating.

Flooding

WARNING: Install this pump in a location where flooding cannot occur.

Ground Fault Circuit Interrupter

WARNING: To reduce the risk of electric shock, install only on a circuit protected by a Ground
Fault Circuit Interrupter (GFCI).

Line Depressurization

To reduce the risk of chemical splash during disassembly or maintenance, all installations
should be equipped with line depressurization capability.

Over Pressure Protection

To ensure safe operation of the pump it is recommended that some type of safety / pressure­relief valve be installed to protect the piping and other system components from failing due to
excessive pressure.

Chemical Concentration

There is a potential for elevated chemical concentration during periods of no flow, for example,
during backwash in the system. Steps, such as turning the pump off, should be taken during
operation or installation to prevent this.

See your distributor about other external control options to help mitigate this risk.

Retightening Components

Plastic materials will typically exhibit creep characteristics when under pressure over a period of
time and to insure a proper fit it may be necessary to retighten the head bolts periodically. To
insure proper operation, we recommend tightening the bolts to 25 inch-pounds after the first
week of operation and on a monthly basis thereafter.

Flow Display

INTRODUCTION

Spills

The accuracy of the flow value as shown on the pump display is highly dependent on the
specific application. Calibration is necessary in order to display an accurate measure of the flow.

CAUTION: Spills of Dangerous chemicals should be cleaned up immediately.

2.0 Introduction

LMI's metering pumps deliver the highest level of repetitive accuracy and reliability
with the capability to pump a wide range of chemicals. Our comprehensive selection
of pumps means you get the right pump for the right application. Every one of our
pumps is engineered to exceed expectations and is backed by a global network of
highly trained field engineers and aftersales support.

The PROFIBUS DP interface conforms to the PROFIBUS DP-V0 standard for cyclic
data transmission. This manual assumes the reader is familiar with commissioning
and programming PROFIBUS devices.

2.1 Specifications

Table 1: PROFIBUS DP Specifications

PROFIBUS Implementation Class DP-V0

PROFIBUS Connector 5 Pin Reverse Key Female M12 (B-Code)

Maximum Cable Length 1200 meters at 9.6 Kbits/s

Slave Address Range 1-125

Line Termination On/Off (Software Configurable)

Supported transmission speeds 9600 to 12 Mbit/s (auto detected)

3.0 Local Operation

This manual covers basic features supported in the Excel® XR Series pumps and complete
descriptions of PROFIBUS features.

1000 meters at 115.2 Kbits/s

200 meters at 1.5 Mbits/s

100 meters at 12 Mbits/s

Scroll Bar

Multi-Function Icons

3.1 Display Navigation

Navigation through display screens is done using the Up, Down, and Multi-Function
buttons. The settings screen is shown in the example below (Figure 1: Display
Navigation). The scroll bar on the side of the display screen indicates there are more
settings available on another page.

Figure 1: Display Navigation

LOCAL OPERATION

3.2 Settings

To access the settings screen (Figure 2) press Settings in the home screen. Navigate

to the function desired and press Enter . Follow the prompts to enter new settings. New

settings will need to be saved by pressing Save . Press Exit to return to the
previous screen without saving.

Figure 2: Settings

3.2.1 PROFIBUS Communication Settings

From the Settings screen, navigate to the Communication Settings icon and press Enter

. The Communication Settings screen (Figure 4) will allow for the following settings to

be adjusted:

• The Slave Address can be configured via software in the range of 1-125.

• The Internal Line Termination can also be enabled/disabled on this screen. The

final device on the communication bus must have line termination enabled. This
can be accomplished externally or using the software enabled internal line
termination. The Internal Line Termination will engage the following internal
termination resistors:

LOCAL OPERATION

Figure 3: Internal Termination Resistors

Figure 4: Communication Settings

PROFIBUS SOFTWARE DEFINITION

Module

Name

Description

Direction

Data
Type

0

Device Control

Bitmask. Set the desired bit high execute the

Bit 7 - Force Homescreen Display

Input/Output

UINT8

1

Operation Mode

Bitmask. Set the desired bit high force the

Bit 5 = Timed Event (Internal)

Input/Output

UINT8

2

Manual Flow Rate
Control

XX.XX in the current units (i.e. GPH/LPH).
The range is 0-9999.

Input/Output

UINT16

3

Prime Flow Rate
Control

XX.XX in the current units (i.e. GPH/LPH).
The range is 0-9999.

Input/Output

UINT16

4

Prime Flow
Duration

Seconds. The range is 1-3600.

Input/Output

UINT16

5

Power Loss Mode

Bitmask. Set the desired bit high set the

Bit 2 = Run at a configured speed

Input/Output

UINT8

6

Resume Speed

XX.XX GPH/LPH format. The range is 0-9999.

configured speed'.

Input/Output

UINT16

7

Slow Mode
Setpoint

Range of 10-90 in increments of 10.

Input/Output

UINT8

4.0 PROFIBUS Software Definition

4.1 PROFIBUS Configuration

Each function available via the PROFIBUS is defined in a Module. Each Module must be
loaded sequentially. If any Modules are skipped or loaded in the wrong order, the
configuration will fail.

4.1.1 Modules 0-8: Basic Control

associated function:
Bit 0 - Toggle OnOff
Bit 1 - Toggle Prime Mode
Bit 2 - Toggle 100pct Mode
Bit 3 - Force IntExt
Bit 4 - Toggle Slow Mode
Bit 5 - Toggle Units
Bit 6 - Reset Totalizer

Power Loss

associated operation mode:
Bit 0 = Manual (Local only)
Bit 1 = Analog (External)
Bit 2 = Pulse (External)
Bit 3 = Batch (External)
Bit 4 = Cycle Timer (Internal)

associated option:
Bit 0 = Resume Operation
Bit 1 = Stay Idle

This flowrate is applied on power up if the
power loss option is set to 'Run at a

PROFIBUS SOFTWARE DEFINITION

8

Alarm Status

Bit 10 - Pulse Signal Overrange

Output

UINT16

Module

Name

Description

Direction

Data
Type

9

Pulse Mode
Count

Range of 1-10,000.

Input/Output

UINT16

10

Pulse Mode
Volume

XXXXX.XX mL. Range is 0 to 1000000.

Input/Output

UINT32

11

Pulse Mode Units

Enumeration (0=Small, 1=Large). Large will

global units setting.

Input/Output

BOOL

12

Pulse Mode Pulse
Width

msec. The valid range is 4 - 60 in increments
of 4.

Input/Output

UINT8

13

Batch Mode
Volume

XXXXX.XX mL. The valid range is 0 to

1000000.

Input/Output

UINT32

14

Batch Mode Time

Seconds. Range is 1-86400.

Input/Output

UINT32

15

Batch Mode Units

Enumeration (0=Small, 1=Large). Large will

global units setting.

Input/Output

BOOL

16

Batch Mode Pulse
Width

msec. Range is 4 - 60 in increments of 4.

Input/Output

UINT8

17

Batch Mode
Accumulate

Enumeration (0 = Off, 1 = On).

Input/Output

BOOL

18

Analog Mode P1
Flowrate

XX.XX in the current units (i.e. GPH/LPH). The
range is 0-9999.

Input/Output

UINT16

19

Analog Mode P1
Current

XX.X mA. Range is 0.0-20.0.

Input/Output

UINT8

20

Analog Mode P2
Flowrate

XX.XX in the current units (i.e. GPH/LPH).
Range is 0-9999.

Input/Output

UINT16

21

Analog Mode P2
Current

XX.X mA. Range is 0-200.

Input/Output

UINT8

22

Status

the period of active pumping.

Input/Output

UINT16

23

Cycle Timer
Duration

Minutes. Range is 1-1439. The Duration is the
inactive period.

Input/Output

UINT16

Returned as a bitmask with a high bit to
indicate the status of each item:
Bit 0 - Global Alarm
Bit 1 - User Alarm
Bit 2 - Tank Empty
Bit 3 - Tank Low
Bit 4 - Internal System Error
Bit 5 - Motor Stall
Bit 6 - Analog Loss of Signal
Bit 7 - Analog Overrange
Bit 8 - Motor Homing Error
Bit 9 - Pulse Signal not Present

4.1.2 Modules 9-24: Operation Mode Configuration

Cycle Timer Mode

use Gallons or Liters based on global units
setting. Small will use fl oz. or mL based on

use Gallons or Liters based on global units
setting. Small will use fl oz. or mL based on

Minutes. Range is 1-1439. The Cycle Time is

PROFIBUS SOFTWARE DEFINITION

24

Delay Timer

Minutes. Range is 1-1439. The Delay Timer is

cycle.

Input/Output

UINT16

25

Cycle Timer Flow
Rate

XX.XX in the current units (i.e. GPH/LPH). The
range is 0-9999.

Input/Output

UINT16

Module

Name

Description

Direction

Type

26

Select

Integer (1-7) that represents a day of the week.

based on the set day.

Input/Output

UINT8

27

Start Time

Hour (00-23), MM = Minute (00-59).

Input/Output

UINT16

28

Timed Event1
Duration

Integer representing minutes with a valid range
of 1-1439.

Input/Output

UINT16

29

Timed Event1
Flow

Integer representing XX.XX GPH/LPH format.
The range is 0-9999.

Input/Output

UINT16

30

Timed Event1
Enabled

Enumeration (0 = OFF, 1 = ON).

Input/Output

BOOL

31

Start Time

Hour (00-23), MM = Minute (00-59).

Input/Output

UINT16

32

Timed Event2
Duration

Integer representing minutes with a valid range
of 1-1439.

Input/Output

UINT16

33

Timed Event2
Flow

Integer representing XX.XX GPH/LPH format.
The range is 0-9999.

Input/Output

UINT16

34

Timed Event2
Enabled

Enumeration (0 = OFF, 1 = ON).

Input/Output

BOOL

35

Start Time

Hour (00-23), MM = Minute (00-59).

Input/Output

UINT16

36

Timed Event3
Duration

Integer representing minutes with a valid range
of 1-1439.

Input/Output

UINT16

37

Timed Event3
Flow

Integer representing XX.XX GPH/LPH format.
The range is 0-9999.

Input/Output

UINT16

38

Timed Event3
Enabled

Enumeration (0 = OFF, 1 = ON).

Input/Output

BOOL

39

Start Time

Hour (00-23), MM = Minute (00-59).

Input/Output

UINT16

40

Timed Event4
Duration

Integer representing minutes with a valid range
of 1-1439.

Input/Output

UINT16

41

Timed Event4
Flow

Integer representing XX.XX GPH/LPH format.
The range is 0-9999.

Input/Output

UINT16

42

Timed Event4
Enabled

Enumeration (0 = OFF, 1 = ON).

Input/Output

BOOL

Cycle Timer

the first inactive period prior to starting the

4.1.3 Modules 26-42: Timed Event Configuration

This must be set prior to configuring event

Timed Event Day

Timed Event1

Timed Event2

parameters. The other timed events will be

4 decimal digit format (HHMM). Range HH =

4 decimal digit format (HHMM). Range HH =

Data

Timed Event3

Timed Event4

4 decimal digit format (HHMM). Range HH =

4 decimal digit format (HHMM). Range HH =

PROFIBUS SOFTWARE DEFINITION

Module

Name

Description

Direction

Data
Type

43

Config

Enumeration with a range 0-5. The

5: Digital Input = PacingPulse

Input/Output

UINT8

44

Digital Input 1
State

Enumeration (0=NO - Normally Open, 1=NC

- Normally Closed).

Input/Output

BOOL

45

Config

Enumeration with a range 0-5. The

5: Digital Input = PacingPulse

Input/Output

UINT8

46

Digital Input 2
State

Enumeration (0=NO - Normally Open, 1=NC

- Normally Closed).

Input/Output

BOOL

47

Config

Enumeration with a range 0-5. The

5: Digital Input = PacingPulse

Input/Output

UINT8

48

Digital Input 3
State

Enumeration (0=NO - Normally Open, 1=NC

- Normally Closed).

Input/Output

BOOL

49

Config

Enumeration with a range 0-5. The

5: Digital Input = PacingPulse

Input/Output

UINT8

50

Digital Input 4
State

Enumeration (0=NO - Normally Open, 1=NC

- Normally Closed).

Input/Output

BOOL

51

Config

Enumeration with a range 0-2. The

2: Analog Input = Level

Input/Output

UINT8

52

Config

Enumeration with a range 0-2. The

2: Analog Input = Level

Input/Output

UINT8

4.1.4 Modules 43-57: Input/Output Configuration

enumeration is as follows:
0: Digital Input = Disabled
1: Digital Input = RemoteOnOff
2: Digital Input = FloatSwitch_Empty
3: Digital Input = FloatSwitch_Low

Digital Input 1

Digital Input 2

4: Digital Input = RemoteIntExtMode

enumeration is as follows:
0: Digital Input = Disabled
1: Digital Input = RemoteOnOff
2: Digital Input = FloatSwitch_Empty
3: Digital Input = FloatSwitch_Low
4: Digital Input = RemoteIntExtMode

Digital Input 3

Digital Input 4

Analog Input 1

enumeration is as follows:
0: Digital Input = Disabled
1: Digital Input = RemoteOnOff
2: Digital Input = FloatSwitch_Empty
3: Digital Input = FloatSwitch_Low
4: Digital Input = RemoteIntExtMode

enumeration is as follows:
0: Digital Input = Disabled
1: Digital Input = RemoteOnOff
2: Digital Input = FloatSwitch_Empty
3: Digital Input = FloatSwitch_Low
4: Digital Input = RemoteIntExtMode

enumeration is as follows:
0: Analog Input = Disabled
1: Analog Input = Pacing

Analog Input 2

enumeration is as follows:
0: Analog Input = Disabled
1: Analog Input = Pacing

PROFIBUS SOFTWARE DEFINITION

53

Config

8: Digital Output = TimedEvent

Input/Output

UINT8

54

Digital Output 1
State

Enumeration (0=NO - Normally Open, 1=NC

- Normally Closed).

Input/Output

BOOL

55

Config

8: Digital Output = TimedEvent

Input/Output

UINT8

56

Digital Output 2
State

Enumeration (0=NO - Normally Open, 1=NC

- Normally Closed).

Input/Output

BOOL

57

Config

Enumeration with a range 0-2. The

2: Analog Output = MirrorInput

Input/Output

UINT8

Module

Name

Description

Direction

Data
Type

58

Mode

Enumeration

2=Weekly Timer

Input/Output

UINT8

59

Mode

Enumeration

2 = Batch

Input/Output

UINT8

60

Lock Style

Enumeration

5=All_Lock_Power_Password).

Input/Output

UINT8

61

Password

Integer with a range of 0000-9999.

Input/Output

UINT8

Enumeration with a range 0-8. The
enumeration is as follows:
0: Digital Output = Disabled
1: Digital Output = StrokePulse
2: Digital Output = PumpRunning
3: Digital Output = PumpStandby
4: Digital Output = AlarmOut
5: Digital Output = INTEXTMode
6: Digital Output = UserAlarmOut

Digital Output 1

Digital Output 2

7: Digital Output = PumpStopped

Enumeration with a range 0-8. The
enumeration is as follows:
0: Digital Output = Disabled
1: Digital Output = StrokePulse
2: Digital Output = PumpRunning
3: Digital Output = PumpStandby
4: Digital Output = AlarmOut
5: Digital Output = INTEXTMode
6: Digital Output = UserAlarmOut
7: Digital Output = PumpStopped

enumeration is as follows:
0: Analog Output = Disabled

Analog Output

1: Analog Output = Flow

4.1.5 Modules 58-64: System Settings

0 = Manual

Remote Internal

Remote External

1 = Cycle Timer

0= mA
1= Pulse

1=No_Lock
2=All_Lock, 3=All_Lock_Power_Unlock,
4=All_Lock_Password,

PROFIBUS SOFTWARE DEFINITION

62

Clock

(XXYYMMDDXXhhmmss):

ss = Seconds (00-59)

Input/Output

UINT64

63

User Alarm Mask

Bit 10 - Pulse Signal Overrange

Input/Output

UINT16

64

System Units

Enumeration (0 = English, 1 = Metric).

Input/Output

UINT8

Module

Name

Description

Direction

Data
Type

65

Version

Range is 0-65535 as an integer that must be

FFFF representing X.X.X.X.

Output

UINT16

66

Version

Range is 0-65535 as an integer that must be

FFFF representing X.X.X.X.

Output

UINT16

67

Version

Range is 0-65535 as an integer that must be

FFFF representing X.X.X.X.

Output

UINT16

68

Firmware Version

Range is 0-65535 as an integer that must be

FFFF representing X.X.X.X.

Output

UINT16

Module

Name

Description

Direction

Data
Type

69

LCD
Contrast

Integer representing 0-100%.

Output

UINT8

XX = Unused (N/A)
YY = Year (00-99)
MM = Month (1-12)
DD = Day (1-31)
XX = Unused (N/A)
hh = Hour (01-24)
mm = Minute (00-59)

Bitmask. Set desired bits high to trigger user
alarm when associated alarm is active.
Bit 0 - Reserved
Bit 1 - Reserved
Bit 2 - Tank Empty
Bit 3 - Tank Low
Bit 4 - Internal System Error
Bit 5 - Motor Stall
Bit 6 - Analog Loss of Signal
Bit 7 - Analog Overrange
Bit 8 - Motor Homing Error
Bit 9 - Pulse Signal not Present

4.1.6 Modules 65-68: Read-Only Version Information

Main Firmware

I/O Firmware

Display Firmware

Display EEPROM

converted to hex to be read as 0000-

converted to hex to be read as 0000-

converted to hex to be read as 0000-

converted to hex to be read as 0000-

4.1.7 Modules 69-94: Read-Only Information

PROFIBUS SOFTWARE DEFINITION

70

Model ID

Enumeration for the pump output code. The

bar)

Output

UINT8

71

Language

Enumeration

5=Chinese

Output

UINT8

72

Current
Flow Rate

Integer representing XX.XX GPH/LPH format.

Output

UINT16

73

Flow
Percentage

Integer representing XXX.XX%.

Output

UINT16

74

Analog Input
1

Integer representing XX.X mA.

Output

UINT16

75

Analog Input
2

Integer representing XX.X mA.

Output

UINT16

76

Analog
Output

Integer representing XX.X mA.

Output

UINT16

77

Totalizer

Strokes

Integer representing number of strokes.

Output

UINT32

78

Totalizer

Volume

current unit setting.

Output

UINT64

79

Totalizer
User Hours

Integer representing number of hours.

Output

UINT32

80

Totalizer

Cycles

Integer representing the number of Power Cycles.

Output

UINT16

81

Totalizer
Unit Strokes

Integer representing number of strokes.

Output

UINT32

82

Totalizer
Unit Volume

Integer representing Gal or L depending on
current unit setting.

Output

UINT64

83

Totalizer
Unit Hours

Integer representing number of hours.

Output

UINT32

84

Totalizer

Cycles

Integer representing the number of Power Cycles.

Output

UINT16

85

Volume

This is the maximum flow rate of the pump based

representing XX.XX GPH/LPH.

Output

UINT16

86

Batch Mode

Volume

current unit setting.

Output

UINT32

87

Batch Mode

Dosing Time

Integer representing number of seconds.

Output

UINT32

output code is associated with the maximum flow
rate of the pump:
2: Output Code 2 - 5.6 GPH (21.2 l/h) 175 psi
(12.0 bar)
3: Output Code 3 - 14.0 GPH (53.0 l/h) 75 psi (5.0
bar)
4: Output Code 4 - 18.0 GPH (68.1 l/h) 50 psi (3.5

1=English
2=French
3=Portuguese
4=Spanish

User

User

User Power

Unit Power

Calibrated

Remaining

Integer representing Gal or L depending on

on the calibration and is stored as an integer

Integer representing Gal or L depending on

Remaining

PROFIBUS SOFTWARE DEFINITION

88

Cycle Time

Delay Left

Integer representing number of seconds.

Output

UINT32

89

Cycle Time

Time Left

Integer representing number of seconds.

Output

UINT32

90

Cycle Time

Time Left

Integer representing number of seconds.

Output

UINT32

91

Weekly

Run Time

Integer representing number of seconds.

Output

UINT32

92

Statuses

Returned as a bitmask with a high bit to indicate

Yes)

Output

UINT16

93

Status

Returned as a bitmask with a high bit to indicate

Switched)

Output

UINT16

94

Status

Returned as a bitmask with a high bit to indicate

Switched)

Output

UINT16

95

Start Batch

mode

Output

UINT8

Mode
Startup

Mode Run

Mode Cycle

Event
Remaining

the status of each item:
Bit 0: Running Status (0 = stopped, 1 = running)
Bit 1: Internal/External Operating Mode (0 =
internal, 1 = external)
Bit 2: Tank Low (0 = Not low, 1 = Tank Low)
Bit 3: Tank Empty (0 = Not empty, 1 = Tank
empty)
Bit 4: 100% Mode (0 = No, 1 = Yes)
Bit 5: Prime Mode (0 = No, 1 = Yes)
Bit 6: Slow Mode (0 = No, 1 = Yes)
Bit 7: Current Units (0 = English, 1 = Metric)
Bit 8: Pump Calibration Status (0 = No, 1 = Yes)
Bit 9: Keypad Locked Status (0 = No, 1 = Yes)
Bit 10: Home Screen Displayed (0 = No, 1 = Yes)
Bit 11: Batch Mode Dosing Active (0 = No, 1 =
Yes)
Bit 12: Cycle Timer Startup Delay (0 = No, 1 =
Yes)
Bit 13: Cycle Timer Pump Active (0 = No, 1 = Yes)

Pump

Bit 14: Weekly Timed Event Active (0 = No, 1 =

the status of each item:
Bit 1: Digital Input 1 (0 = Unswitched, 1 =

Digital Input

Digital
Outputs

Switched)
Bit 2: Digital Input 2 (0 = Unswitched, 1 =
Switched)
Bit 3: Digital Input 3 (0 = Unswitched, 1 =
Switched)
Bit 4: Digital Input 4 (0 = Unswitched, 1 =

the status of each item:
Bit 1: Digital Output 1 (0 = Unswitched, 1 =
Switched)
Bit 2: Digital Output 2 (0 = Unswitched, 1 =

Set ON to start a batch while the pump is in batch

Input /

CABLE WIRING

96

Status

Enable / Disable StayPrime

Output

UINT8

97

Idle Minutes

Output

UINT16

98

Seconds

Output

UINT8

99

StayPrime

Remaining

Output

UINT32

100

StayPrime

Remaining

Seconds remaining before run ends

Output

UINT8

1

VP (5 V)

2

RxD/TxD-N

3

DGND

4

RxD/TxD-P

5

N/A

Thread: Shield (earth ground)

3

2

StayPrime

Input /

StayPrime

StayPrime
Run

Idle
Seconds

Run
Seconds

5.0 Cable Wiring

The Excel® XR pump provides a 5-pin Reverse Key Female M12 (B-Code) connector with
the following pin-out:

Stayprime Idle time

StayPrime Run time

Seconds remaining before run begins

Connector Pin #

Input /

Input /

Function

C

Figure 5: Connector C Pin Diagram

The M12 circular connector conforms to IEC 60947-5-2 or IEC 61076-2-101 per the PROFIBUS
Interconnection Technology Guideline 2.142 Version 1.4. The shield of the cable should be
connected to protective ground on both sides and with good conductivity.

PROFIBUS DP compliant connectors and cables should be used. The following parts have been
verified:

Description Manufacturer Part Number

2 meter cable with M12 Mating connector and Flying Leads Turck RSSW 590-2M

CABLE WIRING

TROUBLESHOOTING

Pump does not start
when commanded via
PROFIBUS

6.0 Troubleshooting

PROBLEM POSSIBLE CAUSE SOLUTION

Configuration Fault 1. Not all modules included 1. Include all PROFIBUS Data Modules

2. Modules in wrong order 2. Include all PROFIBUS Data Modules in
sequential order

Slave not found

1. Incorrect Slave Address 1. Verify the slave address on the pump UI
matches the slave address on the master

2. Improper line termination 2. If the pump is the last slave on the bus,
enable the internal line termination or use an
external terminating resistor

3. Incorrect Wiring 3. Verify wiring is correct per

Figure 5: Connector C Pin Diagram

4. Pump not powered 4. Verify the pump is powered on

1. Homescreen is not
displayed on pump

2. Pump is not in manual
mode

1. Check the pump display and press the X
button to return to the homescreen.
Alternatively, use Module 90 to query whether
the homescreen is displayed and Module 0 to
force the homescreen to be displayed.

2. If the pump is in an external mode or a timed
event or timed cycle mode, starting the pump
will activate the pump, but the pump will not run
unless the external trigger is provided (i.e. pulse,
analog input, time of day). Change the pump to
manual mode with Module 1.

About Ingersoll Rand

Ingersoll Rand (NYSE:IR), driven by an entrepreneurial spirit and ownership mindset, is committed to
helping make life better. We provide innovative and mission-critical industrial, energy, medical and
specialty vehicle products and services across 40+ respected brands designed to excel in even the most
complex and harsh conditions where downtime is especially costly. Our employees connect to customers
for life by delivering proven expertise, productivity and efficiency improvements. For more information,
visit www.IRCO.com

.

LMI is a registered trademark of Milton Roy, LLC.
EXCEL is a registered trademark of Milton Roy, LLC
Fluorofilm is a trademark of Milton Roy, LLC

info@lmipumps.com
www.lmipumps.com

© 2017 Milton Roy, LLC