ARDETEM TPI-SI 40A, TPI-SI 40 Series, TPI-SI 41AN, TPI-SI 440 Series, TPI-SI 441 Series User Handbook Manual

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ÉTUDES ET RÉALISATIONS
ÉLECTRONIQUES / INSTRUMENTATIONS / AUTOMATISME
Route de Brindas - Parc d’activité d’Arbora - N°2
69510 - Soucieu en Jarrest
Tél. 04 72 31 31 30 - Fax 04 72 31 31 31
Tel. Intern. 33 4 72 31 31 30 - Fax Intern. 33 4 72 31 31 31
http: //www.ardetem.com - e-mail: info@ardetem.com
User handbook
õ
PROGRAMMABLE CONVERTER
TPI-SI 40/41 version 03.7x
TPI-SI 440/441 version 04.3x
software Super Vision
ARDETEM
Soucieu en Jarrest - FRANCE
LCD µconsole
µconsole
p1
Summary
1 . INTRODUCTION p2
2 . CONNECTINGS p5
3 . SPACE REQUIREMENTS p5
4 . PROGRAMMING with the µconsole p6
4.1 Communication with the instrument p6
4.2 Orientation through the programming with the µconsole p6
4.3 Main menu p6
4.4 Programming menu p7
4.4.1 - Programming of the input p7
a / Process signals p7
b / Temperature signals p8
c / Resistive sensors p8
4.4.2 - Programming of the µconsole display p9
4.5 Measure display p13
4.5.1 - Mode transmitter / indicator p13
4.5.2 - Location of the decimal point / resolution p14
4.6 Input features and programming limits p14
4.6.1 - Current and voltage input p15
4.7 Output features and programming limits p15
4.7.1 - Analog output p15
4.7.2 - Digital output p16
4.7.3 - Relay outputs p16
4.7.4 - Safeties p17
4.7.5 - Display features (µconsole) p18
4.8 Reading of the configuration p19
4.9 Access code p19
4.10 Programming of a new access code with the p19
µconsole
4.11 Functions accessible from the main menu p20
4.11.1 - Simulation of the display p20
4.11.2 - Simulation of the analog outputs p20
4.11.3 - Deleting of the recorded alarms p21
4.11.4 - Teleloading of programming files p21
5 . FUNCTIONS ACCESSIBLE DIRECTLY FROM THE
µCONSOLE DISPLAY
5.1 Functions which require pressing only one key p21
a / Display of the minimum value p21
b / Display of the maximum value p21
c / Deleting of the min. and max. values p21
5.2 Functions which require pressing several keys p22
5.2.1 - Display shifting p22
5.2.2 - Visualisation of the direct measure p23
5.2.3 - Visualisation and setting of the alarms setpoints p23
6 . ERROR MESSAGES p23
6.1 Blinking of LED ON p23
7 . GENERAL WARRANTY TERMS p23
8 . LEXIQUE p24
9 . ANNEXE: MODBUS p27
9.1 Table of the modbus addresses p27
9.2 Description of the born Modbus functions p28
9.3 Reading in double integer format p28
9.4 CRC 16 calculation algorythm p29
10. DECLARATION OF COMPLIANCE p30
11. UE TYPE TEST CERTIFICATE p30
Summary
1. INTRODUCTION
The series TPI-SI offers intrinsic safety inputs. They are associated equip-
ment, placed in safe area. They are provided with input circuits for connection to a sen-
sor located in hazardous area and output circuits for connection in safe area only. These
instruments have obtained a UE examination certificate of the type according to
the prescriptions of the standards EN 60079-0 (2006), EN 60079-11 (2007), EN
60079-26 (2007), EN 61241-0 (2006) and EN 61241-11 (2006), in accordance
with the directive ATEX 2014/34/UE.
marking: 0344 II(1)GD, [Ex ia] IIC and [Ex iaD]
Classification of the appliance: Associated equipment - Group II (surface appliance) -
Category 1 (for zone 0 : gas permanently).
protection mode: «ia» intrinsic safety, maximum protection indice (protection ensured in
case of 2 defects taken into account)
«IIC»: most severe gas subdivision.
The series TPI SI accepts 2 types of µconsoles:
the old generation with 4 electroluminescent alphanumerical green digits,
the new generation with rear-lit graphical LCD.
The LCD allow the visualisation of 4 pieces of information:
- the value of the measure (5 mm high),
- the unit of the displayed measure, *
- the value of the analog output or the name of the product (TAG), *
- the status of the relay outputs and the RS485 communication. *
*(3.5 mm high)
This µconsole with LCD also allows showing these information vertically or horizon-
tally according to the sense in which the converter is mounted.
Series TPI-SI 40 / 440
(Process inputs) in standard version :
- One bidirectionnal DC current or voltage input
±100mV, ±1V, ±10V, ±20mA.
Series TPI-SI 41 / 441
(Inputs Process, temperature, resistance and potentiometer)
- One bidirectionnal DC current or voltage input
±100mV, ±1V, ±10V, ±20mA.
- Thermocouple inputs (J, K, B, R, S, T, E, N, L, W, W3, WRE5)
- Sensor inputs : Pt100, Ni 100, Pt100
- Resistive sensors : calibers 0-400 and 0-2 k (0-8 k optional)
- Potentiometers : from 100 to 10 k
Fast version: option F: (specify on order)
The fast version is available on the series TPI-SI 40 / 440 and on the TPI-SI 41
/ 441 which do not have the inputs thermocouple and Pt100 sensor.
The option F (fast) allows reducing the response times on the analog output
from 140ms typical to 55 ms max. and on the relays from 120 ms typical to
35 ms max. (for an acquisition time programmed at 20 ms).
p2
Available options: (specify on order)
Series TPI-SI 41 /40
- Insulated analog output: option A: Programmable active current output
-Relay output: option R: 2 relays - Mode setpoint or window
Recording of the alarms.
Time delay and hysteresis adjustable on each setpoint. Alarm messages
- Insulated digital output; option N: RS 485 2 wire, protocole MODBUS-JBUS.
Note: The presence of the option digital output suppresses the opportunity to
have a relay output.
Series TPI-SI 441 / 440
The TPI-SI have only 2 insulated analog outputs.
The programming of the scale ratios is independent for each of the two outputs.
p3
Coding
Output A:
analog
Output A +
relays
Output A +
digital 2 analog outputs
Universal input TPI-SI 41 A TPI-SI 41AR TPI-SI 41AN -
Process input TPI-SI 40A - - -
Universal input - - - TPI-SI 441
Process input - - - TPI-SI 440
Power supply: High or low voltage (specify)
(2) high voltage: 90...265 VAC or 88...350 VDC
(3) low voltage: 20...40 VAC or 20...64 VDC
Frequency of the supply: 50 Hz to 400 Hz (VAC)
Power draw: 4.5 W max. 8 VA max.
Option fast: version F
For a converter with universal IS input + analog output + 2 relays,
powered in 230 V, request reference: TPI-SI 41 AR-2
Programming:
With the micro-console
(LxhxD= 26.5 x 80 x 20 mm)
This µconsole which can be clipped on the front face allows visualising the measu-
re, or occasional modifications of the programming via a 4-key keyboard. It also
allows teleloading programming files to other products of the ARDETEM range.
The programming menus and the functions which can be accessed from the con-
sole are detailed in the following pages.
The series TPI accepts 2 types of µconsoles:
• The old generation with 4 (alphanumerical) 4 electroluminescent green digits,
the new generation with graphical rear-lit LCD.
The LCD allows visualising 4 pieces of information:
- the value of the measure (5 mm high),
- the unit of the displayed measure *,
- the value of the analog output or the name of the product (TAG)*,
- the status of the relay outputs and the RS485 digital data link *.
* (3.5 mm high)
This µconsole with LCD also allows showing these information either vertically or
horizontally, according to the sense of mounting of the converter.
By the configuration software SuperVision
To communicate with the series TPI-SI from a PC you will need a connection
cable. To connect this cable to the TPI-SI, insert the DIN plug into the especially
foreseen female connector (see drawing hereafter). Then connect the SUBD 9
points contact on a serial port of the PC. For PC’s which do not have a serial
port, we can propose a USB converter.
The software SuperVision allows reading the measures or modifying the con-
verter configuration.
Each configuration is kept as files stored on hard or floppy disk. These files can
then be consulted, modified, duplicated or loaded into the converters. The files
can be created with or without a converter connected. This software also allows
saving existing configurations from the instruments already in service. All these
files can be edited on any type of printer.
p4
Outputs of the TPI-SI
20.0 ms
100 ms
Programmable cycle
time Rejection
30 ms
35 ms
Max. response time
relay analog
Version fast: Option F (For a variation from 0 to 90% of the input signal)
Response time of the outputs
16.6 ms
60 Hz
110 ms
50 ms
55 ms
120 ms
50 Hz / 60Hz
50 Hz
The response times are
garanteed for 10 min.
after the setting on ten-
sion of the converter and
30 sec. after a saving of
the programming, a revert
from measure overstep-
ping or a sensor rupture.
Types of OUTPUTS Features
A1 analog output
(mA active)
Direct or inverted current 0-20mA
Load impedance ≤ Lr 600Ω
-2 analog outputs (mA active)
(insulated from each other)
R
2 NO contact relays 2 setpoints per relay, configurable on the whole MR.
Hysteresis programmable from 0 to 100%. Time delay pro-
grammable from 0 to 25s. (5A/250 VAC on resistive load).
NInsulated digital data link RS485 (Modbus/Jbus) (IEA RS485) with or without parity,
even or odd; 1 or 2 stop bits.
SAFETY RELATED ELECTRICAL PARAMETERS
Terminals Uo Io Po Lo Co
Sensor supply E2 - E5 23.1V 100mA 578mW 4mH 138nF
Current (mA)
Voltage (mV)
Thermocouple (tc)
E2 - E3
6.5V 20.3mA 33mW 85mH 25µF
Voltage (1V, 10V) E1 - E3
Resistance (440Ω) E4 - E3
Sensor
(Ni100, Pt100, ∆Pt100)
Potentiometer
E2-E3-
E4
E2-E4
E1-E4 13V 4.7mA 16mW 1.6H 1µF
E2-E3
E1-E3
E4-E3
6.5V 20.3mA 33mW 85mH 25µF
Resistance (2kΩ, 8kΩ) E1-E3-
E4
Um < 350 Vdc and Um < 265 Vac
TPI-SI inputs
mA
-22 to +22mA
with
10 µA
Measure range
adjustable from :
Intrinsic error Console
resolution
Input
Impedance
Drop 0.9V
max.
mV
-110 to +110mV
with
10 µV
≥ 1MΩ
V
-11 to +11V
with
1 mV
< ±0.05% of
the MR
Input
resolution :
14 bits
≥ 1
0.1°C /
0.1°F
Current
250µA
Special linearisation
programming up to
20 points
Differential measures
from 2 sensors
Pt10 2 wire
Stand. IEC 751
(2)
Sensor Ni 100 3 wr (1)
Resistive sensors
Calibers 0-440 Ω and
0-2.2 kΩ
(0-8.8 kΩ optional)
Potentiometer
Supply for 2 wire
sensor
-200/850
-60/260
-76/500
On input : mV, V, mA.
Resistive sensors and potentiometer
-328/1562
-200/270
from 100Ω to 10 kΩ ♣
-328/518
0.1°C /
0.1°F
<±0.1%
of the MR
<±0.1% of the
MR (0.5% for
0-2KΩ)
-
14.0 V min. (at 22 mA), 14.5V min. (at 20 mA), 23.1V max.
with protection from short circuits: 25 mA
Sensor Pt100Ω (1)
3 wire, Standard
IEC 751 (DIN
43760)
• •
41
441
40
440
Types of
INPUTS
Thermocouples ♠
Standard IEC 581
J
K
B
R
S
T
E
N
L
W
W3
WRE5
°C
-160/1200
-270/1370
200/1820
-50/1770
-50/1770
-270/410
-120/1000
0/1300
-150/910
1000/2300
0/2480
0/2300
°F
-256/2192
-454/2498
392/3308
-58/3218
-58/3218
-454/770
-184/1832
-32/2372
-238/1670
1832/4172
32/4496
32/4172
°C
°F
°C
°F
♦(3)
<±0.1%
of the MR
A 12µA pulsed current allows the detection
of line or sensor rupture (not availble on
version F)
Cut off : the display of the console and the
ΜC output remain at down scale for an input
signal < to the cut off value, programmable
from 0% to 100% of the input scale.
Thermic drift <150ppm /°C
Not available on the fast version (version F)
(1) Line resistance <25
(2) Line resistance <10and R. max. of 400
(3) Or 25 µV typical (50µV Max.)
CJC efficiency : ±0.03°C/°C ±0.5°C
from -5°C to +55°C
MR Measure range
Square root extraction
Galvanic partition:
1kV-50Hz-1min.: Between analog output and digital output, or between 2 analog outputs.
2kV-50Hz-1min.: Between supply and [analog outputs / relay contact ].
Between analog output and relay contact.
3.8kV-50Hz-1min.: Between input and [supply / outputs].
Changing of the supply fuse:
The instrument supply is protected by a fuse on hold This fuse is a component belonging to the
safety and must be changed by a competent person.
The exact type of the fuse must be kept:
Coded instruments (2), power supply 90...265 VAC or 88...350 VDC :
Fuse 5 x 20 mm, (T) Time delayed, of glass,
In = 100 mA, rated load : 35A under 250VAC
Coded instruments (3), power supply 20...40 VAC or 20 ... 64 VDC :
Fuse 5 x 20 mm, (T) Time delayed, of ceramic,
In = 500 mA, rated load : 1500 A under 250 VAC.
120
S6 .............. S1
A3 A2 A1
p5
3. SPACE REQUIREMENTS
E5 E3
E4 E2 E1
mA
Tc
mV
+ -
+ -
+ -
+ * -
PT100 3 wire
PT100 2 wire
(T°2-T°1)
*
T°1 : hot cold sensor
T°2 : hot sensor
(
*
not available on option F)
Potentiometer
2-wire transmitter
+
-
1
2
440<R<2.2K
or 8.8K according options
Resistors
:
0<R<440
Upper
connectors
1V
10V
Lower connector
TPI-SI 40/41 - Outputs AR
S6
S5
S4
S3
S2
S1
Relay 2
mA
Active
C2
2 relay outputs
+
-
T2
Relay 1
C1
T1
Analog
outputs
TPI-SI 440/441 - Outputs A
S4
S3
S2
S1
mA
Active
Analog
output 1
+
-
Analog
output 2
mA
Active
+
-
TPI-SI 40/41 - Outputs AN
S4
S3
S2
S1
Digital data
link RS485
Analog output Digital output
mA
Active
+
-
A
B
INTRINSIC SAFETY
inputs
Power supply
2. CONNECTINGS
Wiring: In order to keep the safety, the connection must be followed strict-
ly, especially the setting to the earth of terminal A2 of the group «supply».
Self-extinguishing case of black UL 94VO ABS.
Protection: case / terminals : IP 20
Mounting in switchboard : latching on symmetrical DIN rail.
Rack version: consult with us.
Dimensions: 22.5x75x120 mm
with µconsole: 26.5x80x130 mm
For the inserting of the µconsole :
mount the instruments vertically
(on horizontal DIN rail) and provide 10 mm
spacement
Operating T°: -5° to 50°C
Storage T°: -20 to 70°C
x
22,5
x
22,5
x
26,5
x
26,5
10
8
6
x
22.5
Voltage presence
led ON
Relay 1
Relay 2
µconsole plug
PC connection plug
75
E5 ...E1
~
S2 S1
A3 A2 A1
S4 S3
In order to keep a sufficient thermic dissemination, the instruments
must be mounted vertically, respecting a 10mm minimum space
between each
.
A3
A1
A2
AC ~ ~
DC - +
p6
4. PROGRAMMING with the µconsole
4.3 Main menu
4.2 Orientation through the programming with
the µconsole
Dialogue is ensured by 4 keys Located on the front face.
Note : In mode programming, the instrument will automatically revert
to measure with the previous configuration if no key is pressed during
1min.
In mode programming, the instrument will carry on measuring and
managing its output options with the previous configuration.
Mode reading
of the
configuration
(see p19)
If code correct,
access to the
programming
menu
see page 7
If code
incorrect,
display of
message
Simulation
of the ana-
log outputs
(see p20)
Authorized by
access code
Deleting of
the recorded
alarms
(see p21)
Further functions can be accessed by pressing several keys
simultaneously:
Setting of the display down scale ; see page 22
Setting of the display full scale ; see page 22
Visualisation of the direct measure ; see page 23
Visualisation and setting of the alarm setpoins ; see page 23
Reading convention:
Move through the main menu
Revert to previous menu
Blinking display: awaiting validation or setting
Alternating information display
Entering of a parameter:
First start by increasing or decreasing
the 1st digit and the sign : from -9 to +9.
The 2nd from 0 to 9.
The 3rd from 0 to 9.
The 4th from 0 to 9.
M
M
+
+
M
+
M
+
and
6888
6588
6528
6520
READ PROG
CODE
NO
8 888
GENE CLrA
«
«
«
«
«
«
Programming
of the access
code
(see p19)
Display
simulation
(see p20)
Authorized by
access code
(analog / relay
output)
(analog
output) (relay output)
PCOD SIMU
«
«
Teleloading
of a program-
ming file
(see p21)
LOAD
«
Exit from a sub-
menu to access
next menu /
access to the
programming
exit menu
Move through the
menus : to the bot-
tom, or decrease
the value shown
Move through the
menus : to the top,
or increase the
value shown
Validation of
the displayed
parameter, or
access to a
submenu
scroll
menus
vertical
move
Entering of the access code.
The access to the programming
menu is protected by a 4-cipher
code.
The code is 0000 on factory
exit (to change this code, see
page 19)
Between each entering, validate
the cipher with key
M
1234
4 leds indicating the
status of the con-
verter relays (accor-
ding to the options
of the converter)
4-digit alphanumeri-
cal display
4 keys for access:
- to the reading or
the modification of
the programming
- to the converter
specific functions
Indication
of the
measure
sign or the
program-
ming para-
meters
2413
M
Display of the measure
(height: 5.0 mm)
Display of the measure
unit (height: 3.5 mm)
Display of the value
of the analog output
or the marking name
of the product (eg.:
TANK)
Indicates the activity
(measure) of the con-
verter
Indicates a communica-
tion on the RS485
Indication
of the alarm
status of
relay 1
Indication of
the
alarm status
of relay 2
Electroluminescent green display Graphical LCD
-1.234
Bar
12.04mA
)) )) .
4 keys for access:
- to the reading or the modification of the programming
- to the converter specific functions
. .
p7
INP
4.4 Programming menu (according to options) 4.4.1 Programming of the input
a. Process signals
DISP
ANA
JBUS
REL
SECU
PrDI
SAVE
Access to the programming of the input p7
Access to the programming of the operating mode
(mode indicator or mode transmitter) p9
Access to the programming of the analog output p10
(option analog output)
Access to the communication parameters p10
(option digital output)
Access to the programming of the relays p11
(option relay output)
Access to the programming of the outputs, the p11
relays in case of self-diagnosis error and/or sensor
rupture and access to the sensor rupt. disconnection
(option analog output or relays)
Access to the programming of the µconsole display p13
Access to the TPI-SI file name p13
Access to the programming exit menu with or p13
without saving the configuration
voltage input
voltage input only
choice of the caliber
Special linearisation only
current input
to t° sensors
resistive sensors
down scale
-22.00 < x < 22.00 (mA)
-11.00 < x < 11.00 (10V)
-110.0 < x < 110.0 (0.1V)
-1.100 < x < 1.100 (1V)
from 3 to 20 : represents
the number of points
(including the down and
full input scale)
X00 = dINP
XNB-1 = F.INP
linear
function
function square
root extraction
in mV, V or mA
according to the
type
special linear
function
Note:
In mode programming, the instrument will automatically revert to measure
with the previous configuration if no key is pressed during 1min.
M
DISP
Note:
Press to revert to menu
NAME
«
dINP
«
-88.88
«
ROOT
DISP
«
mA
100m
«
LIN
«
NB
«
0020
«
X00
«
-88.88
«
X19
(1)
(1)
full scale
in mV, V or mA
according to the
type
«
F.INP
«
-88.88
(1)
(1)
(1)
«
«
V
«
«
CAL
«
SEGT
«
FUNC
«
-88.88
«
TYPE
INP
1V 10V
INP
M
Note:
Press to go on to next menu
Move through the menus / choice
Upwards move /
Increase
Validation / Vertical move
M
Downwards move /
decrease
Menu exit / access
* cold junction compensation, except
thermocouple B which is only in CJ-E.
(Not available on the fast version)
Not available on the fast version
p8
b. Temperature signals
temperature inputs
process
signals
temperature signals
process signals
from 3 to 20:
adjusting of the
number of points
(including the down
and full input scale)
setting of the
abscisses
X00 = dINP
XNB-1 = F.INP
CSF * compensation
external internal
Available only in the case where
an input shifting has been entered
(see p22)
external CJC only
If no shifting
# Changing this parameter requires re-program-
ming the following parameters related to the
relays and the analog output :
SPxx, HYSx, dodI, F.OdI
#
If thermocouple
If other than thermocouple
special linearisation
«
CJ-E
«
CJ-T
«
CJC
«
YES
«
NO
«
ADJ
«
«
«
«
«
«
«
«
«
«
«
«
To
TC--
DISP
TC-L
TC-JTC-K TCW5 TCW3 TC-W
TC-N TC-B TC-E TC-T TC-R TC-S
«
«
oF
oC
«
CAL
«
«
«
RES
«
POT
-1.0C < CJC < 60°.0C
14°.0F < CJC < 140°F
(2)
(2)
c. Resistive sensors
«
dINP
400
«
«
-8888
«
FUNC
«
SEGT
«
NB
«
0020
«
X00
«
X19
DISP
INP
000.0<x<440.0 for cal. 400
0000<x<2200 if option 2k
0000<x<8800 if option 8k
cal. 2Kor 8Kacc. to option
000.0 < x < 100.0% (pot)
If caliber 400 the measure is
taken between terminals E4 and
E5
If caliber 2K(or 8K) the
measure is taken between ter-
minals E2, E4 and E5 (see the
connecting diagram)
for
(3)
(3)
«
-8888 (3)
«
-8888 (3)
«
8888 (3)
See also the input features p14
TPI-SI 41
TPI-SI 40
INP
TPI-SI 41
TPI-SI 441
«
TEMP
«
«
«
«
CAPT
«
CJ-I
«
F.INP
«
LIN
«
«
«
«
-888.8
RTD TC
ni 100 RTD 8K
2Kor
M
Note :
Press to go on to next menu
Move through the menus / choice
Upwards move / increase
Validation / vertical move
M
Downwards move /
decrease
Menu exit / access
according to options
if resistance
Not availbale on the fast version
p9
«
-88.88
«
dOdI
ANA
analog output down scale
analog output full scale
display corresponding to the output down scale
display corresponding to the output full scale
according to options
JBUS REL SECU
or or
See also the features of the outputs p15
(4)
00.00 < x < 22.00 (mA)
(4)
(4)
Option analog output
«
-88.88
«
-88.88
«
-88.88
«
dOUT
«
F.OUT
«
«
F.OUT
dOUT
«
dOdI
«
F.OdI
«
F.OUT
«
F.OdI
«
TYPE
ANA
«
OUt.I
valid if SCALE YES validated : mode indicator / temperature input
Example: In mode indicator or for a temperature input, we have
= 4 mA = 20.00 mA = 10.0° = 100.0°
then the value of the analog output will be 4 mA when the displayed measure is 10.0°
and 20 mA for a displayed measure of 100.0°.
In mode transmitter only the parameters are
available.
For a mA input with dINP = 0.00 and FINP = 20.00 mA if dOUT=4 mA
and F.OUT = 20 mA the value of the current output will be 4.00 mA for
a 0.00 mA input signal.
Upwards move / increase
Validation / vertical move
M
Downwards move /
decrease
Menu exit / access
Fast version only
4.4.2 Programming of the µconsole
display
inputs process, resistance, potentiometer
position of the decimal point
DISP
«
rES
--.--
«
dDIS
«
-88.88
«
F.DIS
«
-88.88
«
UNIT
«
ABCD
«
Y00
display corresponding to
the input down scale “dINP”
Parameter of a physical display
YES : mode indicator (see p13)
NO : mode transmitter
display resolution 1 or
1/10th of degree
temperature input
display corresponding to
the input full scale “F.INP”
setting in display points
(or in input points if
SCALE NO is program-
med) of the same number
of ordinates “Yxx” and
abscisses “Xxx”
if SCALE YES:
Y00 = dDIS and YNB-1 = F.DIS
if SCALE NO:
Y00 = display of the measure
for an input signal = dINP =
X00
Y01 = display of the measure
for an input signal = X01
etc... see p14
setting in display
points
according to options
FILT: coefficient from 0 to 10
integration indice
«
-88.88
«
Y19
«
CUT
«
-88.88
«
YES
«
-88.88
ANA JBUS REL SECU
«
0000
«
NO
«
SCAL
«
YES
«
NO
or or or
«
«
POIN
«
DISP
special linearisation
«
FILT
parameter offered if
YES validated
«
«
1o
0.1o
acquisition time of the measure
«
T.MES
«
20.0m
«
100m
«
16.6m
«
dOUT
TPI-SI 41
TPI-SI 40
p10
«
-88.88
«
dOd1
ANA
analog output down scale
analog output full scale
display corresponding to the output down scale
display corresponding to the output full scale
according to options
JBUS REL SECU
or or See also the features of
the outputs p16
(4) 00.00 < x < 22.00 (mA)
(4)
(4)
Analog outputs
«
-88.88
«
-88.88
«
-88.88
«
dOU1
«
F.OU1
«
dOU1
«
F.OU1
«
dOd1
«
F.Od1
«
dOU1
«
F.OU1
«
F.Od1
«
ANA 1
ANA 2
ANA
valid if SCALE YES validated : mode indicator / temperature input
Example: In mode indicator or for a temperature input, we have
= 4 mA = 20.00 mA = 10.0° = 100.0°
then the value of the analog output will be 4 mA when the displayed measure is 10.0°
and 20 mA for a displayed measure of 100.0°.
In mode transmitter only the parameters are available.
For a mA input with dINP = 0.00 and FINP = 20.00 mA if dOU1=4 mA
and F.OU1 = 20 mA the value of the current analog output will be 4.00 mA
for a 0.00 mA input signal. Upwards move / increase
Validation / vertical move
M
Downwards move /
decrease
Menu exit / access
TPI-SI 441
TPI-SI 440
TPI-SI 41 N & AN
Communication parameters
slave number
must be between 1 and 255
transmission speed
«
SLAV
«
-8888
«
BAUD
JBUS
«
9600
«
4800
«
2400
«
1200
«
19.2K
REL SECU
or
delay before any response pattern the response delays
are periodically
increased by 40 ms.
OFF : typical delay
10ms
ON : typical delay
75ms
«
ON
«
OFF
«
DEL
Option digital output
JBUS
See also the features of the
digital data link p16
«
OU1.I
TYP1
«
REL1
REL
«
AL.1
«
ON
«
MOD1
«
SP 1
02.00
«
HYS1
00.00
«
«
«
TIM1
000.0
«
LED1
«
SP1.1
«
02.00
«
SP1.2
«
04.00
REL
hysteresis
0 < hys. < 9999
in display points
0 < tIME < 025.0
in 0.1 sec. increases
function recording of the alarms
function display of an alarm message
enter 4 characters
at the end of menu REL.2,
access to or
choice of the state of the relay
associated led
ON : led lit when relay active
OFF : led still when relay active
time delay on the relay
SPI.2 must be SPI.I
active
alarm
idem
REL1
de-activated
mode window
mode setpoint
access to SP1 access to SP1.1
«
OFF
«
ON
«
MEM1
«
NO
«
YES
«
MESI
«
NO
ABCD
REL2 SECU PrDI
«
«
«
YES
choice of the relay
operating mode :
mode setpoint or
window
(see page 16)
(5)
(5)
See also the
features of the
relay outputs
p16
Option output
2 relays
TPI-SI 41
TPI-SI 40
«
OFF
if mode window programmed
if mode setpoint programmed
«
REL2
SECU
Safety features p17
Safeties
option 2
relays
if input mV* or t°*
option analog output
if return value programmed
«
REL1
«
LO HI
«
OFF
OUT.I
state of relay 1 in case of sensor rupture
«
LO HI
«
OFF
state of relay 2 in case of
sensor rupture
disconnec. of the sensor rupture
«
YES
«
«
NO
«
REPL value of the output in case of sensor rupture
00.00<rEPLI<22.00 (mA)
«
OFF
«
ON
OFF : sensor rupture
inactive on the relay
In case of sensor rupture
LO : relay de-activated
HI : relay active
«
-88.88
option 2 relays
option analog output
if a return value has been entered
«
LO HI
«
OFF
OUT.I
state of relay 1 in case
of self-diagnosis error
«
YES
«
«
NO
«
REPL value of the output in case of self-diagnosis error
00.00<rEPLI<22.00 (mA)
OFF : self-diagnosis
inactive on the relay
In case of self-
diagnosis error
LO : relay de-activated
HI : relay active
«
-88.88
PrDI
«
RUPT
«
SECU
«
dIAG.
«
«
«
REL1
«
«
CAPT
«
REL2
«
LO HI
«
OFF
state of relay 2 in case of self-
diagnosis error
«
REL2
«
p11
TPI-SI 41
TPI-SI 40
If input mV*, temperature*, resistance
or mA (if dINP and F.INP > 3.5mA)
*Not available on the fast version
p12
SECU
Safeties
TPI-SI 440
TPI-SI 441
SECU
Safeties
TPI-SI 441
TPI-SI 440
If input mV*, temperature*, resistance (caliber 400)
or mA (if dINP and F.INP > 3.5mA)
*Not available on the fast version
if input mV* or t°*
2 analog outputs
if return value
OU1.I
disconnection of the sensor rupture
«
YES
«
«
NO
«
REP1 value of output 1 in case of sensor rupture
00.00<rEP1<22.00 (mA)
«
OFF
«
ON
«
-88.88
if return value
OU2.I OU2.U
or
«
YES
«
«
«
NO
«
REP2 value of output 2 in case of sensor rupture
00.00<rEP2<22.00 (mA)
«
-88.88
«
RUPT
«
SECU
«
CAPT
Safety features page 17
PrDI
«
dIAG.
2 analog outputs
if return value
OU1.I
«
YES
«
«
NO
«
REP1 value of output 1 in case of self-diagnosis
00.00<rEP1<22.00 (mA)
«
-88.88
if return value
OU2.I
«
YES
«
«
NO
«
REP2 value of of output 2 in case of self-diagnosis
00.00<rEP2<22.00 (mA)
«
-88.88
p13
PrDI
NAME
«
ON
«
OFF
«
YES
«
NO
1 1 1 1
setting of the brightness of the displays
on 4 levels
not enforced to 0
deleting of the unsignificant zeros
«
ON
«
OFF
mode idle activated after 10 min : automatic
extinguishing of the µconsole display.
«
ABCD
«
NAME
«
SAVE
Name of the programming file
Entering of the programming file name
state of the last digit digit (right hand side)
enforced to 0
Programming of the
brightness, of the display
See also the display features p18
«
PrDI
«
IDLE
«
NAME
«
LdIG
«
NULL
BRGT
SAVE
SAVE
NO
YES
dDIS
SPI.1
Exit from the programming with or without saving
exit with
configura-
tion saving
exit without configura-
tion saving
* If on a change of location of the decimal
point (parameter POIN) or of operating mode
(parameter SCALE) the user has not modified or
validated again the parameters dDIS , F.DIS ,CUT,
Yxx dODIS, F.OdI (if option analog) and SPxx and
HYSx (if option relays) then the converter will offer
again after SAVE YES all the above named para-
meters which have not been validated again.
revert to
measure
display
*
Note: An exit from mode programming with saving of the configuration (SAVE,
YES) will automatically reset to zero the min. and the max., as well as the alarm
recordings.
After SAVE, YES la µconsole will show WAIT during the converter re-initialisation
phase.
4.5.1 Mode transmitter / indicator
According to the choice SCALE YES / NO , you can choose to have or
not to have a physical display on the converter.
SCALE YES lets the following parameters appear : POIN (position of the decimal
point), dDIS and F.DIS (down and full display scale corresponding to the down
and full input scale, selected in dINP and F.INP) and UNIT (unit of the displayed
physical magnitude) : this unit is recorded in the converter for display on PC
software in association with the physical measure on the setting parameters :
setpoints, hysteresis, etc...
With the configuration SCALE YES it may be considered that the converter opera-
tes like an indicator, able to display, either locally (on the µconsole) or in a shif-
ted way with the configuration software, a measured physical magnitude.
Example 1: For a 4/20 mA signal from a level sensor on a tank, the following
programming is displayed :
in the menu INP: TYPE = mA, FUNC = LIN, dINP = 4.00 , F.INP = 20.00,
in the menu DISP: SCALE YES, POIN = _ _ _ . _ dDIS = 000.0, F.DIS =300.0,
UNIT = LTS (liters) CUT = NO for :
4 mA from the sensor, display = 000.0 --> 000.00 LTS
12 mA from the sensor, display = 150.0 --> 150.00 LTS
20 mA from the sensor, display = 300.0 --> 300.00 LTS
on the µconsole on the software
4.5 Display of the measure
p14
The software has 10 times more resolution than the µconsole.
The transmitter can be configured in mode indicator without leaving the µconsole
permanently connected (or even without having a µconsole at all).
In the case of MODE INDICATOR (with a physical scale programmed
by SCALE, YES), the parameters down and full display scale, setpoints, hysteresis,
dOdI and F.IdI for the analog output, cut-off and ordinates (if input linearised in
segments) are to be considered in the magnitude of the programmed physical
scale.
For example 1, one setpoint on the relay 1 (SPI.I) with a value of 30.0 corresponds
to a setpoint of 30.0 l. If the display overstepps 30.0l (if the input overstepps 5,60
mA) the state of relay 1 will change.
Note : If you want to avoid overloading the programming with an unnecessary
physical display, programme SCALE NO (mode transmitter). In this case, the para-
meters POIN, DDIS, FDIS and UNIT. and dOdI et FOdI (if option analog output) will not
be entered.
In the case of MODE TRANSMITTER (SCALE NO) the parameters
setpoints, hysteresis, cut-off and ordinates (if input linearised in segments) are to
be considered in the physical magnitude of the programmed input type (V, mA,
etc...).
For example 1, for the state of relay 1 to switch if the level overstepps 30.0l, enter
for setpoint 1 the value SP1.1 = 5.60 for 5.60mA.
In mode transmitter , the resolution of the parameters is imponed by the selected
input type : 2 decimals for a mA input, 1 decimal for caliber 300V, etc... on the
console display.
The PC software offers 1 additionnal decimal.
4.5.2 Position of the decimal point / resolution
The parameter POIN should be considered as a moving of the decimal
point, and not as a resolution. The parameter POIN is common to all the display
related parameters in the case of a programmed physical scale (down and full
display scale, setpoints, hysteresis etc...).
In the case of a programming without a physical display scale, the parameter
POIN is not available and the position of the decimal point is fixed according to the
chosen input type (see p8 and p9)
Taking exemple 1 again, the display will be 300.0L for a 4-20mA input at 20mA,
and there is a setpoint at 30.00L.
If you want the measure to be displayed without decimals, that is to say for 20mA
display = 300, you must modify POIN from ---.- to ----. and divide by 10 all the dis-
play related parameters.
In this example, after modifying the parameter POIN from ---.- to ----. F.DIS will have
to be modified from 3000. to 0300. and SP1.1 from 0300. to 0030. to obtain the
expected operating.
Note: For safety reasons, in case the user forgets after changing the position of
the decimal point (parameter POIN) or the operating mode (parameter SCALE ) the
transmitter will offer again after SAVE YES the list of the parameters to be validated
again (see previous page).
4.6.1 Current input or voltage
Special liearisation:
For specific applications such as measurement of volumes, the converter
can memorise an unlinear curve, programmable in X and in Y.
The curve resulting from your equation can be replaced by a follow up of
linear segments, with a maximum of 20 points
(19 segments).
Note that X00 = dINP and the abscisse of the last point is
XNB-1 = F.INP
4.6 Input features
mA
«
ROOT
«
SEGT
«
For the temperature input, when the resolution is changed from RES=1°C to
RES = 0.1°C or the contrary, the user does not need to modify again all the dis-
play related parameters.
The following oddness is to be noted on the µconsole, which only has 4 digits :
If you are in RES =1°C , with a setpoint SP1.1 = 1000 and if you modify RES =
0.1°C, you will not see the 0.1°C resolution (which can not be displayed on 4 digits)
for this setpoint, which will keep the display SP1.1 = 1000.
If you want to modify this setpoint to 900°C for instance, first enter 0900 and vali-
date. The converter will propose the value again with a programmed resolution of
0.1°C, i.e. 900.0.
The programming software offers all the parameters on 5 digits, or a 100 000
point resolution.
The µconsole, which can display only 4 digits, will round up these parameters in
mode reading and enforce the 5th digit in mode programming.
Example 2: The software writes a setpoint with a value of 300.07.
In mode reading on the µconsole, this setpoint will be read as 300.1 (rounded up
to the 5th digit). If it is modified on the µconsole in mode programming to 300.2,
the software will show the value 300.20 (the 5th digit is enforced to 0).
Square roote extraction
The function square root tends to amplify the input signal background
noise when getting near zero.
To avoid the ripples caused by this noise, simply programme a cut-off
value (in display points).
If the display is under this value, it will be maintained at down scale (if
input full scale > input down scale) or at the full scale (if input full scale <
input down scale)
V
«
p15
Note1: The values of the abscisses (x) must go increasing : value of X00
< value of X01...
Note2: In special linearisation and in mode transmitter (SCALE NO), the
displayed measure is the measure linearised by the programming of the
points. The undeformed input measure can always be accessed with the
function direct measure (see p20) on the µconsole or on the variable
Input on the software.
Example:
For a layed cylindric tank, 1 meter high (h) and 1 meter long (l); a 0-20
mA linear sensor measures the height of the liquid surface line :
0 meters -> 0 mA (empty tank) 1 meter -> 20 mA (full tank)
with cos β/2 = ( R - h ) / R a n d sin β/2 = C/2R
Volume of the empty tank = 0.000
Volume of the full tank =0.785
Volume = L [π R² β/360 - C(R-h)/2]
β
(R)
L (length)
C (chord)
R (ray)
h
(height)
Height
mA
X00 0
X01 2
X02 4
X03 6
X04 8
X05 10
X06 12
X07 14
X08 16
X09 18
X10 20
0.0
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0.8
0.9
1.0
0.00
73.74
106.26
132.84
156.93
180.00
203.07
227.16
253.74
286.76
360.00
0.00
0.60
0.80
0.92
0.98
1.00
0.98
0.92
0.70
0.60
0.00
Height
mDegree Chord
m
Volume
m3Outputs
in mA
0.000
0.041
0.112
0.198
0.293
0.393
0.492
0.587
0.674
0.745
0.785
Y00
Y01
Y02
Y03
Y04
Y05
Y06
Y07
Y08
Y09
Y10
00.00
01.04
02.85
05.04
07.47
10.00
12.54
14.96
17.17
18.98
20.00
That is to say a curve of 10 equally long segments:
Measure range / number of segments = 20m A/10 = 2mA length of the
segment.
For 10 segments nb = 11 (number of linearisation points).
Programming:
dINP = 0 mA = X00
F.INP = 20 mA = X10
nb = 11
d.disp = 0,000 m3 =Y00
F.disp = 0.785 m3 =Y10
Programming from X00 to
X10 and from Y00 to Y10
according to the table.
0 2 4 6 8 10 12 14 16 18 20
0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1
0 1 2 3 4 5 6 7 8 9 1 0
20
18
16
14
12
10
8
6
4
2
0
0.785
0.745
0.674
0.587
0.492
0.393
0.293
0.198
0.112
0.041
0.000
volume
in m3
output (mA)
Y
X
input (mA)
height (m)
indice of X
4.7 Output features and programming limits
4.7.1 Analog output (TPI-SI 4x) and (TPI-SI 44x)
Current output 0/4-20mA
Accuracy 0.1 % in relation to the display (at +25°C)
Residual ripple 0.2%
Admissible load 0 Lr 500 (current)
Programmable scale ratio with enlarging effect
Response time : 40 ms in relation to the display
Analog output down scale (eg. 04.00 (4mA))
Analog output full scale (eg. 20.00 (20mA))
Display value corresponding to the output down scale
Display value corresponding to the output full scale
In mode measuring, the analog output can not overstepp 10% of the
greatest of the 2 values : dOUT and F.OUT
ANA ANA 2
ANA 1
(TPI-SI 4x) (TPI-SI 44x)
F.OUT
dOdI dOd2
F.OdI F.Od2
dOd1
F.Od1
dOUT
F.OU1
dOU1
F.OU2
dOU2
p16
4.7.2 Digital output:
- Digital data link RS485 (2 wire)
- Protocoles MODBUS-JBUS format of data : integer and double integer
- Single transmission format : 1 start bit
8 parityless bits
1 stop bit
Slave number between 1 and 255
Transmission speed between 1200 and 19200 bauds
Time delay before any response
Complete description of the option MOBDUS: see annexe page 26.
Including : the table of Modbus addresses, used Modbus functions,
description of the configuration bytes, and the advanced functions.
SLAV
BAUD
DEL
4.7.3 Relay outputs:
2 relay outputs
Hysteresis independently programmable in the display unit
Time delay independently programmable from 0 to 25 s, in 0.1s increases.
NO contact: 5 A - 250 VAC on resistive load
Activation or de-activating of alarm x
The state of relay x depends on the entered programming.
The relay x remains still.
REL1 REL2
AL.X
ON
OFF
Choice of the operating mode:
Mode setpoint
OFF
ON
setpoint
Legend :
ON coil supplied
OFF coil not supplied
or
MODx
setpoint OFF
ON
SPX SPX
TPI-SI 41 N and AN Mode window
Mode setpoint
Mode window
Choice of the state of the relay associated led
The led indicates the alarm state.
Led lit when relay active (coil supplied)
Led still when relay active (coil supplied)
Setting of the hysteresis in display points if mode indicator
(SCALE YES). The hysteresis is active on switching from lit led
to still led, that is to say on switching out of alarm, as the led represents
the alarm state.
If the mode indicator (SCALE YES) is selected, the setting of the set-
points is in display points.
If mode transmitter (SCALE NO) is selected, the setting of the setpoints
is in input scale points.
OFF OFF OFF
ON ON ON
setpoints setpt setpt
or
SP.X
SP.X
- HYSx
HYSx
LEdx
ON
OFF
SPX.1
SPX.1
-HYSx
SPX.2 SPX.2
+HYSx
SPX.2
SPX.1 SPX.2
SPX.1
led lit
led lit
led still
led still
led still
Time delay on the alarm
The relay time delay can be adjusted from 000.0 to 025.0s, in
0.1s. increases. It is active both on switching and switching back.
TIMx
p17
MEM.x
CLrA
MESx
M
DIAG
OFF
LO
HI
RUPT
OFF
OPEN
CAPT
SECU
OFF
ON
LO
HI
· On the analog output
If a return value has been entered
Value between : 0 and 22 mA (current output)
or 0 and 11 V (voltage output)
· On the converter : the led ON blinks fast
Sensor rupture
The sensor rupture can be detected on the inputs mV*, Tc*, Pt100,
Ni100, PT100*, resistance and current if down and full scale > 3.5 mA
(* not available on the fast version).
The sensor rupture information can be reported:
· On the relay
No influence of the sensor rupture on the relay
Relay de-activated (coil not supplied) in case of sensor
rupture
Relay active (coil supplied) in case of sensor rupture
Note : the led is either still or lit, according to its programming in the
menu REL.
Recording of alarms
Allows recording of the alarm after a setpoint has been passed. When
the measure reverts below the alarm setpoint, the relay remains on and
the led blinks to warn the user that a setpoint has been passed (to reset
the alarm recordings to zero see menu ).
Note : An exit from mode programming with configuration saving will
reset the alarm recordings to zero.
Display of alarm messages
A programmed alarm message can be made to appear alternating with
the measure. The message will appear only during the alarm, while the
associated led is lit.
Setting of the setpoints : There are 2 ways to adjust setpoints :
- either in mode programming entering the correct access code
- or by pressing simultaneously and if the access to a quick
entering has been authorized on the programming of the code (see p19).
4.7.4 Safeties:
Self diagnosis:
The converter permanently watches any drifts which may occur on
its components. The self diagnosis serves to warn the user in case
of abnormal increase of these drifts, before they may provoque false
measures.
The information of self-diagnosis error can be reported :
· On the display: An error message appears aternating with the
measure.
Coding:
1 : Programming error
2 : Gain error
4 : Offset error
8 : Input calibration error
16 : Output calibration error
64 : Upper or lower input electrical overstepping.
If the instrument detects for instance an offset error (4) and a gain error,
(2) the value of the error code will be 6 (4+2).
· On the relays:
No influence of a self-diagnosis error on the relay
Relay de-activated (coil not supplied) in case of self-
diagnosis error
Relay active (coil supplied) in case of self-diagnosis error
· On the analog output
If a return value has been programmed
Value between : 0 and 22 mA (current output)
· On the display: Message
Note : The sensor rupture detection has a priority over the self-
diagnosis.
· On the converter: the led ON blinks slowly
Disconnection of the sensor rupture (If input mV or temperature)
(Not available on the fast version)
The sensor rupture detection can be disconnected to avoid disturbing
some calibrators which may be sensitive to the rupture detection current.
In menu :
Validation (or not) of the sensor rupture
Sensor rupture active
Sensor rupture inactive
p18
4.7.5 Display features (µconsole):
Location of the decimal point for inputs other than temperature
inputs
Display resolution for temperature inputs : 0.1° or
Display corresponding to the input down scale
(except temperature inputs)
Display corresponding to the input full scale
(except temperature inputs)
Only for inputs process, resistance, potentiometer,
expressed in display points if mode indicator (SCALE YES).
If display full scale > display down scale and if the display is than
the cut off value, then it will be held at down scale.
If display full scale < display down scale and if the display is than
the cut off value, then it will be held at down scale.
POIN
R E S
dDIS
F.DIS
CUT
FILT
Response time: standard version
Integration indice of the digital filtering :
Programmable from 0 to 10; for use in case of unsteady input signal.
To obtain the maximum response time, add 240 ms.
Note : For the response time of the analog output, add 40ms to the values
shown in the table.
For the relays : add the time delay programmed on the alarms.
Response time: fast version (option F)
Programming of the acquisition time
This function allows choosing the acquisition duration (integration period
of the measure) in order to optimise the instrument response time, while
rejecting any disturbances (residual ripples) due to the mains voltage.
100ms : rejection of the 50 and 60 Hz
20ms : rejection of the 50 Hz only
16.6ms : rejection of the 60 Hz only
Integration indice of the digital filtering :
Programmable from 0 to 10; for use in case of unsteady input signal.
FILT
T.MES
Typical response time
(ms) 120
Value of the FILT 01 2 3 4 5 67 8 9 10
400 600 1.0s 1.4s 2.0s 3.0s 5.0s 7.5s 10s 15s
BRGT
1 1 1 1 4444
Setting of the digits brightness
Lowest brightness Strongest brightness
LdIG
Inhibition of the last digit (low weight)
In mode programming, the menu LdIG allows suppressing the
display of the last digit, the latter being enforced to 0 if OFF is
validated.
Response time of the outputs (ms)
(for a variation from 0 to 90% of the input signal)
Caution: The response times may undergo variations in case of an
internal self-calibration : the instrument will at some times perform an
internal self-calibration in order to catch up with any drifts of its compo-
nents. During this operation the response time of the instrument may be
of 240 ms for Tmes = 20ms and 560 ms if Tmes = 100ms.
These self-calibration are performed every 10 seconds during the 10
minutes following a setting on tension (stabilisation time of the compo-
nents).
Special case of the potentiometer input:
The measurement of the total resistance of the potentiometer is perfor-
med every minute. During this period the response time of the instru-
ment may be of 160ms for Tmes = 20ms and 360ms for Tmes = 100ms.
Note: The instrument will also perform 3 self-calibrations during the 30
seconds following an exit from programming with configuration saving,
or (SAvE, YES), or after an electrical overstepping of the input.
Acquisition
time
16.6 ms
20.0 ms
100 ms
50
Analog output
Value of the FILT 01 2 3
80 120 140
55 80 120 140
120
4 5 67 8 9 10
200 260 400 550 700 900 1.4s
200 260 400 550 700 900 1.4s
1.2s 1.7s 2.3s 2.8s 3.2s 4.0s 4.5s280 550 800
Acquisition
time
16.6 ms
20.0 ms
100 ms
30
Relay outputs
Value of the FILT 0123
60 100 130
35 65 100 130
110
4 5 67 8 9 10
200 240 360 500 750 850 1.4s
200 240 360 500 750 850 1.4s
1.1s 1.6s 2.2s 2.6s 3.0s 3.8s 4.5s260 520 760
p19
READ
READ
INP
DISP
ANA
JBUS
PrDI
NAME
4.8 Reading of the configuration
Reading of the input parameters
Reading of the measure display parameters
Reading of the analog output parameters
(option analog output)
Reading of the communication parameters
(option digital output)
Reading of the alarm parameters
(option 2 relays)
Reading of the safety parameters for sensor
rupture or self-diagnosis of the outputs
Reading of the display programming parameters
Reading of the configuration file name
Reading of the instrument internal parameters
In each reading submenu, use keys and to move, and key to
visualise the parameters.
If no key is pressed during 20 s., the instrument will revert to measure display.
During the reading of the programming, the TPI-SI will carry on measuring and
managing its output options.
Validation / Vertical move
REL
SE C U
INFO
NULL
NULL YES
=
NULL
NULL
YES
NULL NO
==
NULL NO
=YES
=
INFO
TPI-SI
31
AN
PROG
xxxx
ORIG
xx.xx
CSUM
PC-x
65F2
Validation / Vertical move
name of the instrument
(1)
F: fast version
A: analog output
R: relay outputs
N: digital data link
Submenu
type of instrument
available options (1)
identification number of the instrument
programme version number
origin of the instrument
check sum of the programme
no
4.9 Access code
An access code adjustable from 0000 to 9999 serves to protect the converter and its
setpoints from unauthorized programming, and to lock the access to some functions.
0 0 0 0 Factory code
x x x x
0 to 5 Access to the display shifting
6 to 9 No access
0 to 5 Access to the display and output simulations
6 to 9 No access
0 to 5 Access to the teleloading of files
6 to 9 No access
0 to 5 Access to the quick entering of alarm setpoints
6 to 9 No access
4.10 Programming of a new access code
with the µconsole
PCOD OLD
NO
enter pre-
vious code if code not valid
(old)
display during
2s. and revert to measure
display
New code registered and revert to
measure display
if code correct
(old)
enter new code
Reminder: If no key is pressed during 1 min, the instrument will revert to
measure display. On factory exit, the access code is 0000.
NEW
IDLE
OFF
ON ....
....
SIMU GENE ERxx OPEN -- - -
Deleting of the unsignificant zeros
Suppresses the display of the meaningless zeros on
the right hand side.
Eg. : Display value 0015
Display 0015 Display 15
Eg. : Display value 00.15
Display 00.15 Display 0.15
Self-extinguishing of the display
Display permanently lit
After 10 min, display of
In mode idle (display of ), the following messages may appear
briefly every 5 seconds to warn the user that the transmitter is no longer
in a standard measurement phase.
Displayable messages : , , , or
/