Jaquet MultiTasker T601.10, MultiTasker T601, MultiTasker T601.50 User manual

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Frequency Measurement and Switching Instrument
MultiTasker T601
Instruction Manual
BA_T600_e_Rev004
JAQUET AG , Thannerstrasse 15, CH-4009 Basel
Tel. +41 61 306 88 22 Fax +41 61 306 88 18 E-Mail: [email protected]
Instruction Manual T601 JAQUET AG
Revision: 004 2/73
Contents
1 SAFETY NOTICE 6
2 PRODUCT FEATURES 7
3 SPECIFICATIONS 8
3.1 General 8
3.2 Inputs 9
3.2.1 Sensor Inputs 9
3.2.2 Analog Input 11
3.3 Binary Inputs 12
3.4 CAN Input 12
3.5 Outputs 13
3.5.1 Analog Outputs 13
3.5.2 Relays Outputs 14
3.5.3 Open Collector Outputs 14
3.6 Data communication 15
3.6.1 Ethernet 15
3.6.2 Connection to the Display 15
3.7 Environment 15
3.7.1 Climatic Conditions 15
3.7.2 Electromagnetic immunity 15
3.7.3 Other Standards 15
4 PRINCIPLE OF OPERATION 16
4.1 General 16
4.2 Machine factor 18
4.2.1 Measured 18
4.2.2 Calculated 18
4.2.3 Other physical parameters 18
4.3 Datalogger 19
4.3.1 Min- Max value registers 19
4.3.2 Event Recorder 19
4.3.3 Trip Datalogger 19
5 INSTALLATION 21
6 CONNECTIONS 22
6.1 Front view 22
6.1.1 Front view T601 22
6.1.2 Terminal A 23
6.1.3 Terminal B 25
6.2 Top View 27
6.2.1 Terminal C 27
Instruction Manual T601 JAQUET AG
Revision: 004 3/73
7 CONFIGURATION VIA PC SOFTWARE 28
7.1 Software Concept 28
7.2 PC Settings 28
7.3 Installation of the configuration software 29
7.3.1 Application of the software on CD 29
7.3.2 Application of the software on tachometer 29
7.3.3 Direct execution 29
7.3.4 Save as 29
7.4 Configuration software 30
7.4.1 Configuration user and Process user 30
7.4.2 Log in 30
7.4.3 Main Window, Min-Max Values and System Limit Matrix 30
7.4.4 Logging in and out 31
7.5 Configuration file… 31
7.5.1 … creating new 31
7.5.2 … resetting to factory default 32
7.5.3 … loading 32
7.5.4 … saving 32
7.5.5 … printout 33
7.6 Communication with the Tachometer 33
7.6.1 Read measured data 33
7.6.2 Reading configuration from the T601 34
7.6.3 Writing a configuration to the T601 34
7.6.4 Compare data 34
7.6.5 Read and/or Delete Event Recorder 34
7.7 Configuring 35
7.7.1 Configure Speed Sensors 35
7.7.2 Configure Analog Sensor 36
7.7.3 Configure binary input 38
7.7.4 CAN 39
7.7.5 Set Measurement Interval 39
7.7.6 Sensor Alarm 40
7.7.7 Machine factor 40
7.7.8 Direction Sensing 41
7.7.9 Analog Input Range 41
7.7.10 Dynamic Error 41
7.7.11 Math Function 42
7.7.12 System Limits 43
7.7.13 Relay Outputs 44
7.7.14 Open Collector Outputs 45
7.7.15 Analog Output 46
7.7.16 Copy Parameter Set 47
7.7.17 Change-over delay 48
7.7.18 Data-logger Memory 49
7.8 Settings 49
7.8.1 Ethernet Interface 49
7.8.2 Time and Date settings 50
7.8.3 Changing the Password 50
7.8.4 Displays via Bluetooth® 51
7.8.5 Display Settings 52
7.9 Info 52
Instruction Manual T601 JAQUET AG
Revision: 004 4/73
8 OPERATING BEHAVIOUR 53
8.1 Power on 53
8.1.1 Analog Output 53
8.1.2 Relay Output 53
8.1.3 Open Collector Output 53
8.2 Frequency Measurement 54
8.2.1 The Adaptive Trigger Level 54
8.2.2 Signal failure 55
8.3 Analog Input 55
8.4 Functions 55
8.4.1 “Exec“ Push button 55
8.4.2 Parameter sets A, B, C and D 55
8.4.3 Limits 55
8.4.4 Window Function 56
8.4.5 Rotational Direction 57
8.4.6 Creep Detection 57
8.4.7 Frequency x2 and x4 58
8.4.8 Relay and Open Collector Latch Function 59
8.4.9 Analog Output 59
8.5 Fault behaviour 59
8.5.1 Sensor error 59
8.5.2 System alarm 59
8.6 Power failure 59
8.7 Behaviour during Configuration 60
9 MECHANICAL CONSTRUCTION / HOUSING 61
9.1 Tachometer 61
9.2 Mounting 62
10 ACCESSORIES 63
10.1.1 Interface cable 63
10.2 Display 63
10.2.1 Cable version 63
10.2.2 Bluetooth® Version 63
11 MAINTENANCE / REPAIR 64
12 SOFTWARE-VERSION 64
12.1 Configurations software 64
12.2 Firmware 64
13 WARRANTY 64
APPENDIX 65
Instruction Manual T601 JAQUET AG
Revision: 004 5/73
A: Declaration of Conformity 65
B: Possible Problems 66
Instruction Manual T601 JAQUET AG
Revision: 004 6/73
1 Safety notice
Series T601 tachometers should only be connected by trained personnel.
T601 tachometers do not generate dangerous potentials but as soon as circuits
exhibiting dangerous potentials are connected, then these may be present in the
tachometer circuits.
The Tachometers may only be opened for repair by trained personnel.
These Instruments correspond to protection class I. The PE terminal must
therefore be earthed.
The instructions in this manual must be strictly adhered to.
Not following these instructions could result in damage to equipment or plant and injury to personnel, as
well as negating warranty claims!
Units that have suffered electrical over load, mechanical stress or been operated outside of specification
must be immediately switched off and returned to the manufacturer for repair.
Instruction Manual T601 JAQUET AG
Revision: 004 7/73
2 Product features
T601 Series tachometers measure and monitor frequency signals in the range 0.025Hz to 50kHz along with
analog signals.
The following functionality is provided:
2 Frequency inputs (Speed sensor)
1 Analog input for current or temperature (Pt100)
2 Binary input
2 Analog outputs
4 Relays
2 Open Collector outputs
4 Parameter sets each having 6 System limits with 4 Limit values
Creep detection
Direction detection
Data logger function
Sensor monitoring
System monitoring
T601’s are configured via Computer (PC) and a user program.
Two tachometer models are offered:
T601.50: Part No. 384Z-05602 (AC Version)
T601.10: Part No. 384Z-05603 (DC Version)
Instruction Manual T601 JAQUET AG
Revision: 004 8/73
3 Specifications
Reference temp: + 20 °C
3.1 General
Measurement interval
2 ms / 5 ms / 10 ms / 20 ms / 50 ms / 100 ms / 200 ms / 500 ms / 1 s / 2 s / 5 s
(Under certain circumstances, frequency measurements can take several
measurement intervals)
Supply voltage
AC Version
90…264 VAC (47...63 Hz) / 120VDC … 370VDC
DC Version
18…36 VDC
Isolation voltage
AC Version
3000 VAC (of the AC/DC power supply)
DC Version
1500 VDC (of the DC/DC converter)
Isolation
Galvanic isolation between:
Supply
Sensor input incl. sensor supply, analog input, CAN, Display
Binary input 1
Binary input 2
Analog output 1
Analog output 2
Relay outputs
Open Collector output 1
Open Collector output 2
Ethernet interface
Power consumption
T601 without Display
T601 with D211
(Cable version)
T601 with D201
(BlueTooth® version)
P min.
(W)
P max.
(W)
P min.
(W)
P max.
(W)
P min.
(W)
P max.
(W)
AC Vers.
110 VAC
5.0
11.0
6.8
13.0
5.1
11.2
230 VAC
8.0
15.2
10.0
16.7
8.1
15.4
DC Vers.
18 VDC
3.0
7.5
4.4
8.8
3.2
7.7
24 VDC
3.0
7.4
4.4
8.7
3.2
7.6
36 VDC
3.2
7.5
4.6
8.8
3.4
7.7
Power supply bridging
with P max.
T601 without Display
T601 with D211
(Cable version)
T601 with D201
(BlueTooth® version)
AC Vers.
110 VAC
39 ms
37 ms
31 ms
230 VAC
200 ms
190 ms
170 ms
DC Vers.
18 VDC
7 ms
6.8 ms
5.5 ms
24 VDC
23 ms
22 ms
19 ms
25 VDC
26 ms
25 ms
22 ms
36 VDC
70 ms
67 ms
55 ms
Operating temperature
AC Version
-25 °C…+50 °C
DC Version
-40 °C…+70 °C
Storage temperature
AC Version
-40 °C…+85 °C
DC Version
Weight
AC Version
450 g
DC Version
400 g
Sealing to DIN
EN 60529
IP 20
Instruction Manual T601 JAQUET AG
Revision: 004 9/73
3.2 Inputs
3.2.1 Sensor Inputs
Number
2 Sensor inputs
Frequency range (-3 dB)
0.025 Hz … 50 kHz
Measurement range
Programmable within the frequency range
Measurement accuracy
0.002 %
Resolution
(Frequency)
10 ns
Input impedance
> 11.5 k
(0.1 Hz80 k, 1 kHz18.5 k, 10 kHz16 k, 50 kHz11.6 k)
Input signal for fixed 3V
trigger (+/-15 %)
Max. voltage: 80 VRMS (226 Vpp)
Best suited to digital signals
Schmitt Trigger Input (Hysteresis > 1 V)
„0“ = Low Level to 1.25 V
„1“ = High level from 3 V (+/- 15 %)
Min. pulse width: 5 μs
Not DC-decoupled
Input signal for adaptive
trigger min. 57 mVpp
(+/-10 %) 20 mVRMS
Max. voltage: 80 VRMS (226 Vpp)
DC-decoupled
The Trigger level automatically adapts itself to the input signal in the range
+28.5 mV to +2 V. The Adaptive Trigger improves the signal to noise immunity
e.g. where electromagnetic sensors are used.
Min. Trigger level: 57 mVpp +/-10% = 20 mVRMS +/-10% U min. = f(Frequency)
0.01
0.10
1.00
10.00
100.00
1000.00
0.01
0.1
1
10
100
1000
10000
100000
Frequency (Hz)
Sensor Signal (Vpp)
O.K
NOT O.K.
Instruction Manual T601 JAQUET AG
Revision: 004 10/73
Input signal for adaptive
trigger min. 500 mVpp
(+/-10 %) 180 mVRMS
Max. voltage: 80 VRMS (226 Vpp)
DC-decoupled
The Trigger level automatically adapts itself to the input signal in the range
+250 mV to +2 V. The Adaptive Trigger improves the signal to noise immunity
e.g. where electromagnetic sensors are used.
Min. Trigger level: 500 mVpp +/-10% = 180 mVRMS +/-10% U min. = f(Frequency)
0.1
1.0
10.0
100.0
1000.0
0.01
0.1
1
10
100
1000
10000
100000
Frequency (Hz)
Sensor Signal (V pp)
O.K.
NOT O.K.
Sensor supply
+14 V +/- 0.5 V, max. 35 mA / Short circuit proof
If the current limit has been activated, then the circuit needs to be disconnected
to reset the protection.
Typical voltage curve as a function of sensor current
Sensor voltage = f (Sensor current)
13.6
13.8
14.0
14.2
14.4
14.6
14.8
0 5 10 15 20 25 30 35 40 45
Sensor current (mA)
Sensor voltage (V)
Integral pull up resistor
1000 to +14 V (Only for 2 wire active e.g. NAMUR sensors)
Screen
Terminals are provided for each sensor cable screen (Sh1 and Sh2). These
terminals are internally connected to the ground of the sensor input.
Instruction Manual T601 JAQUET AG
Revision: 004 11/73
Sensor monitoring
3 sensor monitoring settings are available in the configuration software:
No Sensor Monitoring
Monitoring of supplied sensors (active Sensor Types)
[Also for 2 wire sensors that are supplied via the internal Pull-up resistor (1 k)
Sensors drawing current outside of Imin or Imax are considered to be faulty.
Imin = 0.5…35 mA
Imax = 0.5…35 mA
Monitoring of non powered sensors (passive Sensor Types)
[For 2 wire sensors such as electromagnetic sensors.]
The sensor is considered to be faulty if the line is broken.
Here the sensor impedance is dynamically measured.
Z < 60 k = OK
Z > 125 k = NOT OK
3.2.2 Analog Input
Number
One 0/4 ..20 mA or 1 Temperature input (Pt100)
3.2.2.1 Analog Input as Current Input
Resolution
12 Bit (4096 Steps)
Max Linearity error
1 LSB (Least Significant Bit) ca. 5.37 uA
Measurement error
Max. 0.25 % of Measured value + 1 LSB (-25 °C +50 °C)
Max. 0.50 % of Measured value + 1 LSB (-40 °C +70 °C)
Accuracy class
0.2 % of final value
Open circuit voltage
Max. 13.7 VDC (active Sensor input)
Driving voltage
Min. 12 VDC (active Sensor input)
External load
Max. 600 (active Sensor input)
Internal current limit
IMax = 24 mA+/-1 mA (active Sensor input)
Measurement
Impedance
50 (passive Sensor input)
Damping
Hardware time constant T = 4.1 ms
10 % 90 % = 8.6 ms (Hardware)
Actual time = Hardware time constant + Max. 1 Measurement interval
Temperature Drift
Typ.: 100 ppm/K, max. 150 ppm/K
3.2.2.2 Analogue Input as Temperature Input
Measurement
2 wire or 3 wire
Sensor
Pt100 (Measurement current = 950 uA)
Measuring range
-50 °C +300 °C
Accuracy
+/-0.5 °C of the measurement value
Max. cable resistance
28 (3 Wire Measurement)
Max. cable length, 3
wire measurement
Cable resistance
AWG
Diameter
Cross
section
Resistance
Max. Length
mm
mm2
/km
Pt100 T601
38
0.1
0.0082
2190
12.8 m
36
0.13
0.0127
1300
21.5 m
34
0.16
0.02
844
33.2 m
32
0.2
0.032
547
51.2 m
30
0.25
0.051
351
79.8 m
28
0.32
0.08
232
120.7 m
25
0.46
0.16
108
259.3 m
24
0.51
0.21
87.5
320.0 m
2 wire connection
The cable must be kept as short as possible, since the cable resistance will be
measured as well; e.g. a cable having 1 (2 x 0.5 wires) would introduce an
error of about 2.5 °C.
Instruction Manual T601 JAQUET AG
Revision: 004 12/73
Damping
Hardware time constant T = 10 ms
10 % 90 % = 21 ms (Hardware)
Actual time = Hardware time constant + Max. 1 Measurement interval
3.3 Binary Inputs
Number
2 Active Binary Inputs and 1 push button (EXEC logic OR with Binary input B1).
Level
Logic 0 = 0 V….+5 V
Logic 1 = +15 V….+36 V
Isolation voltage
1500 VRMS
Input resistance
Rmin = 8.2 k
3.4 CAN Input
All T601 digital inputs and outputs are represented in the Device Profile DS-404. In addition, 3 manufacturers
binary inputs that influence the T601 process are defined in a specific profile area.
Instruction Manual T601 JAQUET AG
Revision: 004 13/73
3.5 Outputs
3.5.1 Analog Outputs
Number
2 Analog outputs
Isolation voltage
1000 VDC
Output type
Current (selectable 0…20 mA / 4…20 mA)
Load
Max. 500
Open circuit voltage
Max. 15 V
Typical error curve
-1
-0.9
-0.8
-0.7
-0.6
-0.5
-0.4
-0.3
-0.2
-0.1
0
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0.8
0.9
1
0.00E+00
1.00E-03
2.00E-03
3.00E-03
4.00E-03
5.00E-03
6.00E-03
7.00E-03
8.00E-03
9.00E-03
1.00E-02
1.10E-02
1.20E-02
1.30E-02
1.40E-02
1.50E-02
1.60E-02
1.70E-02
1.80E-02
1.90E-02
2.00E-02
I (A)
Measurement error (%)
0.2 % (from measured value) + 2 LSB
CLASS 0.1 % (from End Value)
Mode
20.5
20
12
4
0
Mode
Output value
0...20mA
4...20mA
Start value
End value
[mA]
21
2
Error level
4 … 20mA
Error level
0 … 20mA
Transfer Functions
Start value < or > End value
Outputvalue
Output
Startvalue < Endvalue
Output
Startvalue > Endvalue
Outputvalue
Resolution
14 Bit (16384 increments)
Max. Linearity error
2 LSB (Least Significant Bit) approx. 2.7 uA
Measuring error
Max. 0.15 % f.m.v. + 2 LSB (-25 °C +50 °C)
Max. 0.20 % f.m.v. + 2 LSB (-40 °C +70 °C)
Instruction Manual T601 JAQUET AG
Revision: 004 14/73
Accuracy class
0.1 % of the end value
Signal to Noise Ratio
42.76dB (at 20 mA / 500 Ohm)
Damping
Hardware time constant T = 4.1 ms
10 % 90 % = 8.6 ms (Hardware)
Actual time = Hardware time constant + Software setting (configuration)
Temperature Drift
Typ.: 50 ppm/K, max. 120 ppm/K
3.5.2 Relays Outputs
Number
4 Relay output
Type
Mono-stable single change-over
Functions
May be assigned to System Limit 1..6, Sensor Alarm, Static error Sensor 1 or
2, dynamic error, Static error Analog input, always on or off.
With or without Hold function (Reset via Binary input)
Fail Safe or Not Fail Safe
Max. switching current
Reaction time
Effective Measurement interval + max 6 ms
Contact resistance
50 m Max. (Initial-contact)
Contact isolation
1500 VAC (coil to contact)
1000 VAC (between open contacts)
3.5.3 Open Collector Outputs
Number
2 Open Collector output
Type
Opto-coupler (passive)
External resistance
IC nominal = 15 mA (RPull-up = V / I) Example: V = 24 V
R = 1.6 k
IC max. = 30 mA
Reaction time
As Frequency output: <30 us
Effective Measurement interval + max 30 us
Load voltage
V = 5 VDC…36 VDC
Isolation voltage
1500 VAC
Functions
May be assigned to System Limit 1..6, Sensor Alarm, static error Sensor 1 or 2,
dynamic error, static error Analog input, always ON or OFF, Frequency S1 or
2, Frequency x 2, Frequency x 4.
With or without hold function (Reset via Binary input)
Fail Safe or Not Fail Safe
Inverting
Open collector output frequencies are in phase with the input signal.
Instruction Manual T601 JAQUET AG
Revision: 004 15/73
3.6 Data communication
3.6.1 Ethernet
Number
1 Ethernet interface
Physical Layer
Ethernet 10Base-T, IEEE 802.3i
Max cable length
100 m
Transmission rate
10 MBit/s
Connection
Front panel, 8P8C (RJ45)
Usage
Configuration and measurement status
Protocol
Peer to Peer
Connecting cable
Use a crossover cable
3.6.2 Connection to the Display
Number
1
Connector
Plug (5 pins)
Usage
Connection to the Display
3.6.2.1 Cable
Cable
Complete 6m long cable to connect a display. See Chapter 10.2.1 Cable version
3.6.2.2 Bluetooth®
Max. distance to the
Display
10 m 150 m
Class
Bluetooth® Class 1 + 7 dBm
3.7 Environment
3.7.1 Climatic Conditions
Standard
DIN 40 040
Operating temperature
See 3.1 General
Storage temperature
See 3.1 General
Relative humidity
75 % average over 1 year; to 90 % for max. 30 days
Condensation to be avoided
3.7.2 Electromagnetic immunity
Electrostatic discharge
EN 61000-4-2
Contact 6 kV, air 8 kV
Electromagnetic fields
EN 61000-4-3
30 V/m, not modulated and AM 80 % with 1000Hz Sinus
wave
Fast transients
EN 61000-4-4
2 kV, repeated 5 kHz duration 15 ms period 300 ms
Slow transients
EN 61000-4-5
Line / line +/- 1kV, earth line +/- 2kV, 1 per minute
Conducted HF
EN 61000-4-6
3 V eff (180 dBuV) 10 kHz 80 MHz
Mains frequency
Magnetic field
EN 61000-4-8
50 Hz, 100 A/m 2 minutes
Voltage dips
EN 61000-4-11
Voltage dips, short interruptions and voltage variations
immunity tests
3.7.3 Other Standards
Communauté Européenne
Pattern Approval: CH.C.28.001.A - Nr. 45175
Instruction Manual T601 JAQUET AG
Revision: 004 16/73
4 Principle of Operation
4.1 General
T601’s are microprocessor controlled and operate on the period measurement principle whereby the input
signal period is measured during the measurement interval. The frequency is determined from the reciprocal
of the average input period. The relationship between frequency and speed is determined by the machine
factor.
The status of System Limits can be affected by various inputs. Inputs to System Limits may be logically
combined AND or OR. System limit inputs may be: speed inputs, analog input, a math function of the 2 speed
values or the analog input, both binary inputs, creep, direction, CAN interface.
A hysteresis may be set in the case of both speed inputs, the analog input and the math function.
The 6 System Limits may be variously defined in 4 parameter sets that may be selected via binary inputs.
The 4 relays and 2 open collectors may be assigned to react to the System Limits. The 2 open collectors may
alternatively be used to output the input frequency (f), frequency x2, frequency x4.
In the case of limits, the relay and open collector status may be latched and then reset via binary input.
The system permanently monitors itself. Sensors may in addition be monitored. Sensor alarm may be used in
the configuration to influence System Limits. System error would influence the relays, open collectors and
analog outputs and the front panel LED would go out.
Frequency outputs (Open Collector Outputs) are not influenced by the machine factor but where so defined
correspond to the input signal. For frequency x2 or x4 the 2 input signals should ideally be phase shifted by 90
degrees.
Parameter input is via resident PC software and the Ethernet interface. This may also be used to interrogate
the unit, display measurement and unit status.
The parameters are safely stored in EEPROM.
Instruction Manual T601 JAQUET AG
Revision: 004 17/73
Instruction Manual T601 JAQUET AG
Revision: 004 18/73
4.2 Machine factor
The Machine factor determines the relationship between the measured sensor frequency and the
corresponding speed.
There are two means of determining this value:
4.2.1 Measured
Where the Frequency (f) at the Sensor input and the corresponding speed (n) is known:
4.2.2 Calculated
The relationship between sensor signal frequency (f) and speed (n) at a pole wheel is:
Machine factor is then:
Should a gearbox be present between the pole wheel and drive shaft the formula becomes:
The gearbox ratio is determined as follows:
4.2.3 Other physical parameters
In principle any parameter may be processed as long as it can be translated into a frequency proportional
value. The formulas above may still be applied whereby the required parameter is used in place of speed.
n
f
M
M = Machine factor
f = Signal frequency at machine speed n
n = Machine speed
n
f
M
M = Machine factor
f = Signal frequency at known speed
n = Machine speed at measured signal frequency
f = Signal frequency in Hz
n = Pole wheel speed in U/min (rpm)
p = Number of teeth
60pn
f
60ip
M
M = Machine factor
p = Number of teeth
i = Gearbox ratio
1
2
2
1p
p
n
n
i
i = Gearbox ratio
n1 = Primary pole wheel speed (Sensor position)
n2 = Secondary pole wheel speed (Speed to be indicated)
p1 = Nr. of teeth primary pole wheel
p2 = Nr. of teeth secondary pole wheel
60
p
M
M = Machine factor
p = Number of teeth
Instruction Manual T601 JAQUET AG
Revision: 004 19/73
4.3 Datalogger
This function is available since version 0.99.
4.3.1 Min- Max value registers
The minimum and maximum values of input signals S1 and S2 along with the analog value are measured and
stored. The Min / Max registers may be reset via appropriately configured binary inputs (see 7.7.3) or via the
configuration software (see 7.6.5 Event Recorder readout and / or reset).
NB. If the Min / Max registers are reset via the configuration software, then the event and trip data recorders
are reset as well!
4.3.2 Event Recorder
The event recorder logs events such as when a relay operates or a system limit occurs. The following events
are logged:
Relay 1 4
Open Collector 1 and 2 (If assigned to a System Limit)
Binary input 1 and 2
CAN Cell
Sensor alarm
System Limit 1 6 from the active parameter set
Creep
Direction
Sensor fault (Static Fault S1, Static Fault S2, Dynamic Fault, Static Fault Analog Input)
128 events can be recorded for each item in the list. Each event is time and date stamped. Every event has its
own memory range. The event memory can be defined as Ring or Limited Memory. (see 7.7.18 Data-logger
Memory)
Time and date are only used for the event recorder and have no influence over other tachometer functions.
In the event of power loss the clock will continue to operate for approx. 7 days. Thereafter it must be reset.
(see 7.8.2 Time and Date settings)
NB: If the memory is reset via the configuration software, then the event recorder, trip data logger and min /
max registers are reset at the same time!
4.3.3 Trip Datalogger
A Trip Data Logger is assigned to System Limit 1 in each parameter set. When activated by a System Limit 1
becoming active, 100 additional parameters before and after the trip event are logged. The additional
parameters being:
Speed - Sensor S1
Speed - Sensor S2
Analog input value
Status Binary input 1
Status Binary input 2
CAN Cell status
Sensor alarm
Creep
Direction
This function is only available for system limit 1 of the active control. It is a limited memory space and cannot
be configured as a ring buffer. It needs to be reset to allow recording of further trip event data.
Instruction Manual T601 JAQUET AG
Revision: 004 20/73
NB: If the memory is deleted via configuration software then the safety and event recorders along with the min
/ max registers are reset at the same time!
/