The XSR10R paperless recorder, when combined with various sensors and transmitters, can measure, transform, display, record, dump, communicate, and control process variables such as temperature, pressure, liquid level, and composition.
Adopting a graphic dot matrix LCD with a resolution of 128 × 64 and a fully Chinese interface, it is easy to operate.
The display content is rich and comprehensive, including measurement values, engineering units, alarm information, real-time clocks, real-time curves, historical curves, and record status.
Up to 4 channels of measurement inputs, suitable for voltage, current, thermistor, thermocouple, etc mV、 Remote transmission of signals such as pressure gauges.
4-point alarm output, with 10 alarm modes to choose from, and independent setting of alarm sensitivity. Equipped with delayed alarm function, it can remember the channel, time, and alarm mode of the last 6 alarms.
A fully transparent, high-speed, and efficient networked communication interface enables complete data transmission and control between computers and instruments.
The unique control transfer function allows the computer to directly control the alarm output and transmission output of the instrument.
4M memory is used for measuring value recording, which can record 260000 data times. The data can be retrieved through historical curves and read through communication.
Equipped with a USB interface, it can transfer recorded historical data to a USB drive at any time.
A good software platform with secondary development capabilities that can meet special functional requirements.
Passed ISO9001:2000 quality management system certification.
The product has obtained an electromagnetic compatibility (EMC) inspection certificate from an authoritative organization.
2. Model and specifications of XSR10R paperless recorder
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Content |
Code and Description |
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XSR10R/ |
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Overall dimensions |
A-— |
160(W)×80(H)×150(L) |
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Panel form |
H |
horizontal format |
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number of channels |
one |
1-channel instrument |
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two |
2-channel instrument |
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three |
3-channel instrument |
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four |
4-channel instrument |
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The order represents the 1st, 2nd, 3rd,
4-channel input signal
(Other input signals,
Instructions at the time of ordering |
E |
E |
E |
E |
Thermocouples K, S, R, B, N, E, J, T |
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R |
R |
R |
R |
Thermal resistance Pt100, Cu100, Cu50, BA1, BA2, G53 |
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I |
I |
I |
I |
Direct current (4~20) mA, (0~10) mA, or (0~20) mA |
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V |
V |
V |
V |
DC voltage (0~5) V, (1~5) V |
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M |
M |
M |
M |
DC MV (specify range in order) |
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L |
L |
L |
L |
Remote Pressure Gauge |
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Number of alarm points (Note 1) |
T□ |
T0: No alarm T1~T4: 1~4 points alarm |
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Transmission output (independent power supply, fully isolated).
12 bit D/A, error less than ± 0.2%)
Double transmission means writing two codes simultaneously |
A0 |
No output |
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A1 |
Current output (4~20) mA, (0~10) mA, or (0~20) mA |
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A2 |
Voltage output (0~5) V, (1~5) V |
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A3 |
Voltage output (0~10) V |
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A4 |
Other outputs |
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External power supply |
B0 |
No external power supply |
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B1 |
External supply 24V DC, error less than ± 5%, 50mA |
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B2 |
External supply 12V DC, error less than ± 5%, 50mA |
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B3 |
External precision voltage source, error less than ± 0.2%, 40mA
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B4 |
External precision current source, error less than ± 0.2%, 0.1-10mA
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communication interface
(Independent power supply, fully isolated, 2400~19.2K, instrument address 0~99, response delay less than 500 μ s) |
S0 |
No communication interface |
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S1 |
RS-232 interface |
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S2 |
RS-485 interface |
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instrument power supply |
V0 |
220V AC |
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V1 |
24V DC |
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V2 |
12V DC |
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V3 |
other |
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USB dump interface |
USB |
Without omission |
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Print function |
P |
Without omission |
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LCD color |
B |
white text on a blue background |
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Y |
Yellow background with black text |
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Non standard functions |
N |
Without omission |
1. Technical specifications
1.1. Input
Display range: -9999~9999, decimal point position can be set
Display resolution: 1/20000
Input signal types: voltage, current, thermistor, thermocouple mV、 There are 6 types of remote pressure gauges, among which
Voltage: 1~5V DC, 0~5V DC can be selected through setting
Current: 4~20mA, 0~10mA, 0~20mA can be selected through setting
Thermistors: Pt100, Cu100, Cu50, BA1, BA2, G53 can be selected through settings
Thermocouples: K, S, R, B, N, E, J, T can be selected by setting
Other input signals or division marks need to be specified when ordering
Basic error: less than ± 0.2% F.S
Measurement resolution: 1/60000, 16 bit A/D converter
Measurement control cycle: 0.2 seconds per channel
1.2 Records
Recording capacity: 4Mbit
Recording interval: 1 second~59 minutes and 59 seconds can be set arbitrarily, with the option to choose between cyclic and non cyclic recording
Recording time: The length of recording time is related to the recording interval and the number of input channels. The calculation formula is as follows:
Recording hours=72 x Recording interval (seconds)/Number of channels
From this, it can be calculated that the shortest recorded time is 18 hours and the longest time is 29 years
1.3. alarm
10 alarm modes, selected through settings. Equipped with delayed alarm function
Relay output: Contact capacity 220V AC, 3A
OC gate output (specified when ordering): voltage less than 30V, current less than 50mA
1.4 Transmission
Photoelectric isolation
4~20mA, 0~10mA, 0~20mA DC current output, selected through setting. Load capacity greater than 600 Ω
1-5V, 0-5V, 0-10V DC voltage output, please specify when placing an order
Output resolution: 1/4000, error less than ± 0.2% F.S (specified when ordering)
1.5 Communication Interface
Photoelectric isolation
RS232 and RS485 standards, please specify when ordering
Instrument address 0~99 can be set
Communication rates of 2400, 4800, 9600, and 19200 can be selected through settings. Rates lower than 2400 should be specified when placing an order
The response delay of the instrument from receiving computer commands to sending corresponding data:
The command with "#" as the delimiter has a response delay of less than 500 μ s; The response delay for other commands is less than 100ms
Supporting testing software, providing technical support for configuration software and application software
1.6. external supply
Up to two sets of external power supplies can be configured
Ordinary power supply: used to power the transmitter, with an error of less than ± 5% between the output value and the nominal value,
Load capacity greater than 50mA
Precision power supply: used to supply power to pressure sensors and other devices, with output values that match the nominal values
Error less than 0.2%, load capacity greater than 40mA
1.7. Power supply
Instruments powered by 220V: 85V~265V, power consumption less than 10VA
24V DC, 12V DC, 5V DC or other specifications should be specified when ordering
1.8. USB port
USB flash drive compatible with USB 1.1 protocol
1.9. Other performance indicators
Working environment: 0 ℃~50 ℃, humidity below 90% R.H (instruments with a wide temperature range need to be specified when ordering)
Electromagnetic compatibility: IEC61000-4-2 (electrostatic discharge), Class III; IEC61000-4-4 (Electrical Fast Transient Pulse Group), Class IV; IEC61000-4-5 (Surge), Class III; IEC61000-4-8 (power frequency magnetic field), Class V; IEC61000-4-9 (Pulse Magnetic Field), Class IV; IEC61000-4-12 (Vibration Wave), Level III
1. Installation and wiring
1.1. Overall dimensions
Figure 4.1 Overall dimensions of the instrument
1.2. aperture size
Figure 4.2 Instrument opening size
1.3. wiring
To ensure safety, wiring must be done after a power outage.
The AC powered instrument has a common terminal for the power filter, which has high voltage and can only be grounded. It is prohibited to connect it to other terminals of the instrument.
The basic wiring diagram provided in this manual is limited by the number of terminals. In case of any conflict between the instrument function and the basic wiring diagram, the wiring diagram shall be based on the terminal diagram on the casing.
terminal block
Figure 4.3 Instrument wiring terminal diagram
Table 4.1 Schematic diagram of instrument input signal wiring
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(1) Wiring between instruments and thermal resistors or remote pressure gauges |
(2) Wiring of instruments, thermocouples, current and voltage inputs |
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(3) Wiring of instruments and valve opening potentiometers |
(4) Wiring of mV signals between instruments and strain bridges or diffusion silicon sensors |
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(5) Wiring of current signals between instruments and 2-wire transmitters |
(6) Wiring of instruments with 3-wire and 4-wire voltage and current transmitters |