Recorder/Controller Specification Sheet MODEL •

Recorder/Controller Specification Sheet MODEL •
Recorder/Controller
Specification Sheet
MODEL
• Secure data recording
• USB removable data storage
facility
The nanodac™ recorder/controller offers the ultimate in graphical
recording combined with PID control for a box of its size. The compact ¼
DIN panel mount unit offers four high accuracy universal inputs for data
recording and PID control. This secure data recording device with
accurate control is enhanced by a full colour, ¼ VGA display to bring a
crystal clear operator interface to even the smallest of machines.
• Compact design
Crystal clear, colour display
• 2 PID control loops
• High accuracy universal inputs
• 14 virtual channels
The 3.5” TFT display offers incredibly clear visualisation of process
parameters with a wide selection of configurable views to best suit the
application. Views include: Horizontal and vertical trends; Horizontal and
vertical bar graphs; Numeric; Alarm status, and control loops. The unit
also provides user wiring from the front of the product for detailed
configuration without the need to connect to a PC.
• Steriliser Application Block
Data Acquisition and Recording
• 50MB flash memory
• Ethernet communications
• ¼ VGA crystal clear display
• Relative Humidity Application
Block
• Multiple I/O options
• Multi-language support
(French, German, Italian and
Spanish)
The nanodac recording functionality utilises the secure strategies and
UHH format developed by Eurotherm through years of recording
expertise. As well as multiple real-time views and historical review on the
product, multiple data archiving strategies are provided utilising the
50MB onboard Flash memory, removable USB and data transfer via FTP
to a specified server.
The four universal input channels provide high accuracy (suitable for use
in Nadcap applications) and 125ms parallel sampling. An additional 14
virtual channels can be utilised to provide maths, counter, slave
communications and totaliser functionality within the instrument.
Review software can also be utilised to automatically initialise pulling of
data to a Review database over the Ethernet network. Both Review and
Dream Report™ software can be used for report generation that meets
the needs of your process.
PID Control Loops
The nanodac instrument can also provide two independent control
loops (optional). This control functionality utilises the advanced
Eurotherm PID algorithm providing high performance and reliability to
your process. Functionality includes one of the best autotune facilities
available along with overshoot inhibition (cutbacks); compensation for
power fluctuations using power feedforward; linear, fan, oil and water
cooling.
imagine bigger better smaller
Cable type:
Maximum length:
Termination:
Specification
General
General
I/O types
Analogue i/p:
Digital i/p:
Digital (logic) o/p:
Relay o/p:
DC output:
Features:
Environmental performance
Ambient temperature range
Operating:
Storage:
Humidity range
Operating:
Storage:
Protection
Front panel
Behind panel:
Shock/Vibration:
Altitude:
Atmosphere:
Electrical safety:
Four
Two
Two max (see order code)
Four max (see order code)
Two max (see order code)
CSV archive format
File transfer protocol (FTP)
Messages
Modbus TCP (Slave)
uhh (history file) archiving
USB port at rear of instrument
User linearisation tables (four)
Two control loops (optional)
Zirconia probe support (optional)
14 Virtual channels (each configurable as
counter, maths, totaliser or comms input)
Steriliser (optional)
Relative humidity (optional)
Customised start up screen
USB port
Number of ports:
Standard:
Transmission speeds:
Maximum current:
Peripherals supported:
General
Number of Inputs:
Input types:
0 to 55°C
–20 to +70°C
5% to 85% RH non condensing
5% to 85% RH non condensing
IP65, NEMA4X (International)
IP10 (International)
To BS EN61131-2 (5 to 150 Hz. at 1g; 1
octave per min.)
<2000 metres
Not suitable for use in explosive or corrosive
atmospheres
BS EN61010-1 (Installation category II;
Pollution degree 2)
Input type mix:
Sample rate:
Conversion method:
Input ranges:
Mains rejection (48 to 62Hz)
Series mode:
Common mode:
Common mode voltage:
Series mode voltage:
Input Impedance:
3.5” TFT colour display
(320 pixels wide x 240 pixels high)
Four navigation pushbuttons below the
display screen (Page, Scroll, Lower and Raise)
Low
Range
–40mV
–80mV
–2V
–3V
Power requirements
Supply voltage:
Standard: 100 to 230V ac ±15% at 48 to 62Hz
Low voltage: 24V ac (+20% –15%) at 48 to 62Hz, or
24V dc (+10% –20%)
Power dissipation:
9W (max.)
Fuse type:
None
Interrupt protection: Standard: Holdup >10ms at 85V RMS supply voltage
Low voltage: Holdup >10ms at 20.4V RMS supply voltage
High
Range
40mV
80mV
2V
10V
Resolution Maximum error
(Instrument at 25°C)
1.9μV
4.6μV + 0.053% of reading
3.2μV
7.5μV + 0.052% of reading
82μV
420μV + 0.044% or reading
500μV
1.5mV + 0.063% or reading
Resistance input ranges
Temperature scale:
Types, ranges and accuracies:
Maximum source current:
Pt100 figures
Range:
Resolution:
Calibration error:
Time, date
Minimum of 1 year with unit unpowered
Three years typical
Poly-carbonmonofluoride/lithium (BR2330)
(PA260195)
Temperaure coefficent:
Measurement noise:
Linearity error:
Lead resistance:
Bulb current:
Temperature
Performance
13ppm of input per °C
13ppm of input per °C
13ppm of input per °C
45ppm of input per °C
ITS90
See Table 3
200μA
0 to 400Ω (–200 to +850°C)
0.05°C
±0.31°C ±0.023% of measurement in °C
at 25°C ambient
±0.01°C/°C ±25ppm/°C measurement in °C
from 25°C ambient
0.05°C peak-peak with 1.6s input filter
0.0033% (best fit straight line)
0 to 22Ω matched lead resistances
200μA nominal
Low
High Resolution Maximum error
Temperature
Range Range
(Instrument at 25°C)
Performance
0Ω
400Ω 20mΩ
120mΩ + 0.023% of reading 25ppm of input per °C
10/100baseT Ethernet (IEEE802.3)
Modbus TCP/IP slave, FTP, DHCP
Eurotherm Part No. HA030686 Issue 4 March 11
> 95dB
>179dB
250V ac max.
280mV at lowest range; 5V peak to peak at
highest range
40mV, 80mV, 2V ranges > 100MΩ;
62.5kΩ for input voltages > 5.6V
667kΩ for input ranges < 5.6V
Table 1 Voltage input ranges
Replace battery with Panasonic BR2330/BE only. Use of another battery may
present a risk of fire or explosion. See owners manual for safety instructions.
Caution Battery may explode if mistreated. Do not recharge, disassemble or
dispose of in fire
Ethernet communications
Type:
Protocols:
Four
dc Volts, dc mV, dc mA (external shunt
required), Thermocouple, RTD (2-wire and
3-wire), Digital (Contact closure)
Freely configurable
8Hz (125ms)
16 bit delta sigma
See Table 1 and Table 2
Overvoltage protection
Continuous: ±30V RMS
Transient (<1ms): ±200V pk-pk between terminals
Sensor break detection Type: ac sensor break on each input giving quick
response with no associated dc errors
Recognition time: <3 seconds
Minimum break resistance: 40mV, 80mV ranges: 5kΩ; other ranges: 12.5kΩ
Shunt (mA inputs only):
1Ω to 1KΩ mounted externally
additional error due to shunt: 0.1% of Input
Isolation:
Channel to Channel: 300V RMS or dc (Double insulation)
Channel to common
electronics: 300V RMS or dc (Double insulation)
Channel to ground: 300V RMS or dc (Double insulation)
Dielectric strength
Test: BS EN61010, 1 minute type test
Channel to Channel: 2500V ac
Channel to Ground: 1500V ac
Physical
Panel mounting:
1/4 DIN
Weight:
Instrument only: 0.44kg (15.52ozs)
Panel cutout dimension:
92 mm x 92 mm (both -0.0 +0.8)
or 3.62 in x 3.62 in (both -0.00 +0.03 in)
Depth behind panel:
90 mm (3.54 in) excluding wiring
Battery backup
Stored data:
Support time
(for real-time clock):
Replacement period:
Type:
8Hz
8Hz max.
Latest value at archive time
Latest value at display update time
Analogue Input
Other approvals and compliance details
General: CE and cUL, EN61010
PV input: AMS2750D compliant
RoHS EU; China
Packaging:
BS61131-2 section 2.1.3.3.
Controls:
One at rear of instrument
USB1.1
1.5MBit/sec (low speed device)
<100mA
Memory stick (8GB max), Bar code reader,
QWERTY keyboard
Update/Archive rates
Sample rate (input/output):
Trend update:
Archive sample value:
Display value:
Electromagnetic compatibility
Emmissions (Standard units): BS EN61326 Class B – Light industrial
(Low voltage option): BS EN61326 Class A – Heavy industrial
Immunity:
BS EN61326 Industrial
Operator interface
Display:
Category 5
100metres (110 yards)
RJ45.
Green LED illuminated = link connected;
Amber LED flashing shows link activity
Table 2 Ohms (RTD) input ranges
2
nanodac Specification Sheet
Cu10
Cu53
JPT100
Ni100
Ni120
Pt100
Pt100A
Overall range
(°C)
-20 to +400
-70 to +200
-220 to +630
-60 to + 250
-50 to +170
-200 to + 850
-200 to + 600
Standard
General Electric Co.
RC21-4-1966
JIS C1604:1989
DIN43760:1987
DIN43760:1987
IEC751
Eurotherm Recorders SA
DC Output (option)
Max. linearisation
error
0.02°C
<0.01°C
0.01°C
0.01°C
0.01°C
0.01°C
0.09°C
DC analogue outputs
Table 3 RTD type details
Thermocouple data
Temperature scale:
CJC
Types:
Remote CJC source:
Internal CJC error:
Internal CJC rejection ratio:
Upscale/downscale drive:
ITS90
Off, internal, external, remote.
Any input channel
<1°C max., with instrument at 25 °C
40:1 from 25°C
High, low or none independently
configurable for each channel’s sensor break
detection
Types, ranges and accuracies: See Table 4
Overall range
(°C)
0 to +1820
B
C
D
E
G2
J
K
L
0 to +2300
0 to +2495
–270 to +1000
0 to + 2315
–210 to +1200
–270 to +1372
–200 to +900
N
–270 to +1300
R
–50 to +1768
S
–50 to +1768
T
–270 to +400
U
-200 to + 600
NiMo/NiCo
-50 to + 1410
Platinel
0 to + 1370
Mi/NiMo
0 to + 1406
Pt20%Rh/Pt40%/Rh 0 to + 1888
Standard
IEC584.1
Hoskins
Hoskins
IEC584.1
Hoskins
IEC584.1
IEC584.1
DIN43710:1985
(to IPTS68)
IEC584.1
IEC584.1
IEC584.1
IEC584.1
DIN43710:1985
ASTM E1751-95
Engelhard
Ipsen
ASTM E1751-95
Configurable within 0 to 20mA
500Ω max.
<±100μA ±1% of reading
Voltage outputs
O/P3 only)
Output ranges:
Load resistance:
Calibration accuracy:
Configurable within 0-10V
500Ω min.
<±50mV ±1% of reading
General
Isolation:
300V ac double insulated from instrument
and other I/O
>11 bits
<100ppm/°C
Resolution:
Thermal drift:
Max. linearisation
error
0 to 400°C = 1.7°C
400 to 1820°C = 0.03°C
0.12°C
0.08°C
0.03°C
0.07°C
0.02°C
0.04°C
0.02°C
Installation
Side View
96mm (3.78in)
90mm (3.54in)
96mm (3.78in)
T/C Type
Current outputs
(O/P2 and O/P3)
Output ranges:
Load resistance:
Calibration accuracy:
0.04°C
0.04°C
0.04°C
0.02°C
0.08°C
0.06°C
0.02°C
0.14°C
0.07°C
Panel cutout:
92mm (3.62in) x 92mm (3.62in)
(both -0 + 0.8mm (0.03in))
91mm (3.58in)
RTD Type
Minimum inter-unit spacing:
Horizontal (‘x’) = 10mm (0.4in)
Vertical (‘y’) = 38mm (1.5in)
Table 4 Thermocouple types, ranges and accuracies
Top View
Relay and Logic I/O
Isolation
O/P1, O/P2 and O/P3 logic I/O and relay specification
Single
Sin
e (50V ac)
Active (current on) current sourcing logic output
(O/P1 or O/P2 only)
Voltage o/p across terminals: +11V min.; +13V max.
Short circuit output current:
6mA min. (steady state); 44mA max.
(switch current)
Ethernet
comms
Supply voltage
100 to 240V ac Rectification
or
24V ac or dc
Inactive (current off) current sourcing logic output
(O/P1 or O/P2 only)
Voltage output across terminals: 0V (min.); 300mV (max.)
Output source leakage
current into short circuit:
0μA (min.); 100μA (max.)
Current through terminals:
Double
Do
ble (300V ac)
Relays/
DC output
Power
Supply
Circuits
Double
Do
ble (300V ac)
PV1*
Active (current on) contact closure sourcing logic input
(O/P1 only)
Input current
Input at 12V: 0mA (min.); 44mA (max.)
Input at 0V: 6mA min. (steady state); 44mA max.
(switch current)
Open circuit input voltage:
11V (min.); 13V (max.)
Open circuit (inactive) resistance: 500Ω (min.); ∞ (max.)
Closed circuit (active) resistance: 0Ω (min.); 150Ω (max.)
Relay Contacts
Contact switching power
(resistive):
Double
(300V ac)
Double
Do
ble (300V ac)
* Note: Each ‘PV’ is double
isolated (300V RMS) from
all other ‘PV’s
μP &
System
Circuits
PV2*
Double
Do
ble (300V ac)
SN1
PV3*
Double
Do
ble (300V ac)
Max. 2A at 230V RMS ±15%
Min. 100mA at 12V
2A
PV4*
USB comms
Digital Inputs
Dig InA and Dig InB contact closure logic input
Eurotherm Part No. HA030686 Issue 4 March 11
PSU Logic/
Digital I/O
2MΩ
Contact closure
Short circuit sensing current
(source):
5.5mA (min.); 6.5mA (max.)
Open circuit (inactive) resistance: 600Ω (min.); ∞ (max.)
Closed circuit (active) resistance: 0Ω (min.); 300Ω (max.)
Safety earth (Protective conductor terminal)
3
nanodac Specification Sheet
Rear Terminals
O/P1
Mains (Line) supply
voltage wiring
3A
100 to 230V ac
± 15%;
50/60Hz
L
20.4 to 28.8V ac;
48 to 62Hz or
19.2 to 26.4V dc
(polarity
irrelevant)
LB
LC
4A
C
5A
3B
N
Low voltage option
supply voltage wiring
Brown
Blue
3A
1A
1B
R>500R = inactive 2A
R<150R = active
LB
LC
4A
C
5A
3B
24V
Contact closure
Isolated DC o/p (mA)
3A
O/P2
Dig In A
Ethernet
(RJ45)
3A
O/P3
O/P4
O/P5
Supply
Voltage
1
LB
LC
4A
C
5A
Dig In B
3B
8
3I
3+
3–
4I
4+
4–
Safety Earth
3B
Relay output
An In 2
Logic o/p (active high)
2B
LA
LC
3B
com no
An In 1
com no
Relay output
1B
2A
2B
LA
1B
2A
2B
LA
Dig InA
3A
1I
1+
1–
2I
2+
2–
USB
Logic o/p (active high)
1B
2A
2B
LA
24V
O/P3
1A
1B
2A
2B
LA
LC
1A
1B
2A
O/P2
Each wire connected to
LA, LB and LC must be less
than 30 metres in length
O/P1
1A
1B
2A
Isolated DC o/p (mA/ V)
com no
Relay output
Dig InB
R>600R = inactive
R<300R = active
Internal Link (0V)
Contact closure
LB
LC
4A
O/P4; O/P5
4A
C
5A
E
Contact closure
com no
com no
Relay output
An In1; An In2; An In3; An In4
I
+
–
An In 3
An In 4
T/C
mV
0 to 1V
0 to 10V
I
+
–
I
+
–
I
+
–
I
+
–
I
+
–
R>350R = inactive
R<200R = active
1R0≤R≤1k0
T/C, Volts,
millivolts
RTD
(three wire)
Milliamps
RTD
(two wire)
Ohms
inputs
Digital
Order codes
1
2
3
4
5
6
7
8
9
NANODAC
Basic Product
NANODAC
1
VH
VL
Graphical Recorder/
Controller
Supply Voltage
100-230V ac ±15%
at 48-62Hz
24V ac (+20% –15%)
at 48-62Hz, or
24V dc (+10% –20%)
Eurotherm:
AUSTRALIA Melbourne
T (+61 0) 8562 9800
E [email protected]
AUSTRIA Vienna
T (+43 1) 7987601
E [email protected]
BELGIUM & LUXEMBOURG Moha
T (+32) 85 274080
E [email protected]
BRAZIL Campinas-SP
T (+5519) 3707 5333
E [email protected]
CHINA
T (+86 21) 61451188
E [email protected]
2
Controller
X
C
3
None (default)
2 Control loops
Programmer
Application Blocks
5
XX
ZC
RH
ST
8
XXXXX None
BASIC Basic toolkit blocks
None
Zirconia
Humidity
Steriliser
9
X
None (default)
Output Options 1-2-3
LRR
LRD
LLR
RDD
Logic/Relay/Relay (default)
Logic/Relay/Iso DC output
Logic/Logic/Relay
Relay/Iso DC/Iso DC
Modbus TCP/IP slave
(default)
Bezel
7
SV
ENG
FRA
GER
ITA
SPA
English (default)
French
German
Italian
Spanish
Silver (standard)
International sales and service
Beijing Office
T (+86 10) 5909 5700
E [email protected]
FRANCE Lyon
T (+33 478) 664500
E [email protected]
GERMANY Limburg
T (+49 6431) 2980
E [email protected]
INDIA Mumbai
T (+91 22) 67579800
E [email protected]
IRELAND Dublin
T (+353 1) 4691800
E [email protected]
Operating Language
Communications Protocol
6
TS
4
Toolkit Blocks
www.eurotherm.com
ITALY Como
T (+39 031) 975111
E [email protected]
KOREA Seoul
T (+82 2) 2090 0900
E [email protected]
NETHERLANDS Alphen a/d Rijn
T (+31 172) 411752
E [email protected]
POLAND Katowice
T (+48 32) 78395000
E [email protected]
SPAIN Madrid
T (+34 91) 6616001
E [email protected]
SWEDEN Malmo
T (+46 40) 384500
E [email protected]
SWITZERLAND Wollerau
T (+41 44) 7871040
E [email protected]
UNITED KINGDOM Worthing
T (+44 1903) 268500
E [email protected]
U.S.A. Ashburn VA
T (+1 703) 724 7300
E [email protected]
ED63
© Copyright Eurotherm Limited 2011
Invensys, Eurotherm, the Eurotherm logo, Chessell, EurothermSuite, Mini8, Eycon, Eyris, EPower nanodac and Wonderware are trademarks of
Invensys plc, its subsidiaries and affiliates. All other brands may be trademarks of their respective owners.
All rights are strictly reserved. No part of this document may be reproduced, modified, or transmitted in any form by any means, nor may it be
stored in a retrieval system other than for the purpose to act as an aid in operating the equipment to which the document relates, without the prior
written permission of Eurotherm limited.
Eurotherm Limited pursues a policy of continuous development and product improvement. The specifications in this document may therefore be
changed without notice. The information in this document is given in good faith, but is intended for guidance only.
Eurotherm Limited will accept no responsibility for any losses arising from errors in this document.
Eurotherm Part No. HA030686 Issue 4 March 11
4
nanodac Specification Sheet
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