ETC TSXDMZ28DR

Modicon TSX Nano PLCs
Characteristics :
pages 40050/9 to 40050/11
References :
pages 40050/12 to 40050/14
Dimensions :
page 40050/15
Connections :
pages 40050/16 to 40050/19
Nano PLCs
Presentation
New features on Nano PLCs
The range of Nano PLCs includes new functions with :
i Non-extendable Nano PLC bases for small configurations.
i Nano PLC extensions which can be used to augment extendable Nano PLC bases at minimum cost.
i Analogue I/O extension modules (with c 100…240 V or a 24 V power supply) incorporating 3 inputs and 1 output.
Presentation
Nano PLCs are very compact and offer a cost-effective replacement for traditional solutions while increasing application
flexibility and ease of wiring.
Nano PLCs are available in 3 formats :
i Nano PLC bases with 10, 14, 16, 20 or 24 non-extendable I/O.
i Nano PLC bases with 10, 16 or 24 extendable I/O, which can be augmented with an I/O extension and up to 3 PLC
extensions.
i Nano PLC extensions with 16 or 24 I/O which can be used to augment extendable Nano PLC bases (1 extension per
base).
Non-extendable Nano PLC bases
Non-extendable Nano PLC bases will not accept any
extension. They all have a c 100…240 V power supply,
depending on the model :
Nano PLCs with 10 I/O
i
i
i
i
i
10 I/O : 6 inputs + 4 outputs and 1 analogue input.
14 I/O : 8 inputs + 6 outputs.
16 I/O : 9 inputs + 7 outputs and 1 analogue input.
20 I/O : 12 inputs + 8 outputs.
24 I/O : 14 inputs + 10 outputs and 1 analogue input.
The following types of inputs and outputs are used :
i Inputs : a 24 V (sensor supply is not protected).
i Outputs : relay.
Nano PLCs with 14/16 I/O
Nano PLCs with 20/24 I/O
40050/2
These PLCs incorporate extended communication : UniTelway master/slave link or ASCII link for transmission/
reception.
Models with 10, 14 and 20 I/O do not have a real-time clock.
Modicon TSX Nano PLCs
Characteristics :
pages 40050/9 to 40050/11
References :
pages 40050/12 to 40050/14
Dimensions :
page 40050/15
Connections :
pages 40050/16 to 40050/19
Nano PLCs
Description
Description
Non-extendable Nano PLCs
The front panels of TSX 07 3L ii28 non-extendable Nano PLCs comprise :
7
4
3
2
5
8
1
6
7
1 A port (1) for connecting a programming terminal (or
Uni-Telway bus or serial link)
2 A display of :
- inputs 0 to 7 or 0 to 11
- outputs 0 to 5 or 0 to 7
- PLC status (RUN, ERR, COM, I/O)
3 A mains power supply connection
4 A sensor power supply (a 24 V/150 mA)
5 An input sensor connection
6 An output preactuator connection
7 A removable cover for protecting the screw terminal
blocks
8 A potentiometer
Extendable Nano PLCs
The front panels of TSX 07 30 10ii extendable Nano PLCs with 10 I/O comprise :
10
6
5
7
4
2
3
1
8
9
10
1 A port (1) for connecting a programming terminal (or
Uni-Telway bus or serial link)
2 A selector switch for coding the base/extension function
3 A potentiometer
4 A display of :
- inputs 0 to 5 and outputs 0 to 3
- PLC status (RUN, ERR, COM, I/O)
5 A mains power supply connection
6 A sensor power supply (a 24 V/150 mA) on models
with a c 100…240 V supply
7 An input sensor connection
8 An output preactuator connection
9 An extension connection (I/O extension and/or PLC
extension) or Modbus slave connection
10 A removable cover for protecting the screw terminal
blocks
The front panels of TSX 07 31 16/24ii extendable Nano PLCs with 16/24 I/O comprise :
10
6
5
7
4
2
3
1
8
9
10
(1) Female 8-way mini-DIN type connector.
40050/4
1 A port (1) for connecting a programming terminal (or
Uni-Telway bus or serial link)
2 A selector switch for coding the base/extension function
3 Two potentiometers
4 A display of :
- inputs 0 to 8 or 0 to 13 and outputs 0 to 6 or 0 to 9
- PLC status (RUN, ERR, COM, I/O)
5 A mains power supply connection
6 A sensor power supply (a 24 V/150 mA) on models
with a c 100...240 V supply
7 An input sensor connection
8 An output preactuator connection
9 An extension connection (I/O extension and/or PLC
extension) or Modbus slave connection
10 A removable cover for protecting the screw terminal
blocks
Modicon TSX Nano PLCs
Characteristics :
pages 40050/9 to 40050/11
References :
pages 40050/12 to 40050/14
Dimensions :
page 40050/15
Connections :
pages 40050/16 to 40050/19
Nano PLCs
Presentation (continued)
Extendable Nano PLC bases
Nano PLCs, with a 24 V or c 100...240 V power supply,
are available with three different I/O combinations :
i 10 I/O : 6 inputs + 4 outputs.
i 16 I/O : 9 inputs + 7 outputs.
i 24 I/O : 14 inputs + 10 outputs.
There are many types of I/O :
Nano PLCs with 10 I/O
i Inputs : a 24 V, c 115 V, analogue 0/10 V.
i Outputs : relay outputs, transistor outputs a 24 V/0.5 A
(positive logic : load common at “-”), transistor outputs
a 24 V/0.5 A (negative logic : load common at “+”).
Nano PLCs are programmed in lists of instructions using
the FTX 117 programming terminal, in Ladder or Instruction list language using software on an FT 2000, FTX 517
terminal or PC compatible. Instruction list and Ladder
programs are reversible on FTX terminals or PC compatibles.
Nano PLCs with 16 I/O
Nano PLCs are easy to set up and have numerous built-in
functions (EEPROM memory for storing programs, batterybacked RAM, real-time clocks for models with 16 and 24
I/O). They can be installed easily on a mounting rail or base
plate, in a vertical or horizontal position.
Nano PLCs with 24 I/O
Nano PLCs with 16 I/O (c inputs)
Nano PLC extensions
Nano PLC extensions can be used to augment extendable
Nano PLCs using a single extension per base.
They all have a c 100…240 V or a 24 V power supply
and, depending on the model :
i 16 I/O : 9 inputs + 7 outputs.
i 24 I/O : 14 inputs + 10 outputs.
Nano PLC extensions with 16 I/O
The following types of inputs and outputs are used :
i Inputs : a 24 V.
i Outputs : relay outputs for models with c 100…240 V
power supply, transistor outputs with positive logic for
models with a 24 V power supply.
Nano PLC extensions with 24 I/O
Each extendable Nano base PLC 1 can be augmented using an I/O extension 2, made up of one of the extendable Nano
PLCs or a Nano extension.
In addition, up to three PLC extensions 3, 4 and 5 communicating via exchange words can be connected to the base PLC.
Only the base PLC can receive an I/O extension.
Base PLC
I/O extension
PLC extension
1
2
3
PLC extension
PLC extension
4
5
200 m maximum
This extension link can be used exclusively as a Modbus slave link.
40050/3
Modicon TSX Nano PLCs
Characteristics :
pages 40050/9 to 40050/11
References :
pages 40050/12 to 40050/14
Dimensions :
page 40050/15
Connections :
pages 40050/16 to 40050/19
Nano PLCs
Description (continued)
Nano PLCs (with integrated analogue input)
The front panels of TSX 07 32/33 ii28 Nano PLCs with 10/16/24 I/O and 1 integrated analogue input comprise :
10
6
5
7
2
4
3
1
8
9
10
1 A port (1) for connecting a programming terminal (or
Uni-Telway bus or ASCII link)
2 A point for adjusting the analogue input error
3 A potentiometer (for TSX Nano with 16/24 I/O)
4 A display of :
- discrete relay outputs and inputs
- PLC status (RUN, ERR, COM, I/O)
5 A mains power supply connection c 100…240 V
6 A sensor power supply a 24 V/150 mA
7 An input sensor connection
8 An output preactuator connection
9 An analogue input connection 0-10 V
10 A removable cover for protecting the screw terminal
blocks
Nano PLC extensions
The front panels of TSX 07 EX iiii Nano PLC extensions comprise :
7
3
2
4
1
5
6
7
1 A display of :
- inputs 0 to 8 or 0 to 13
- outputs 0 to 6 or 0 to 9
- PLC status (RUN, ERR, COM, I/O)
2 A mains power supply connection
3 A sensor power supply (a 24 V/150 mA) on models
with a c 100...240 V supply
4 An input sensor connection
5 An output preactuator connection
6 A connection to the Nano base PLC
7 A removable cover for protecting the screw terminal
blocks
Program loader
The TSX PGR LDR module is designed to simplify duplicating or updating applications on Nano and Micro PLCs without
the need for a programming terminal. An application (in internal RAM) can be transferred from a PLC to the TSX PGR LDR
module (and saved within it), then transferred from the TSX PGR LDR module to a PLC.
The front panel of the TSX PGR LDR module comprises :
1
2
3
1 A cord for connecting to the PLC programming port
2 Four operation indicator lights
3 A W/R button which selects the program transfer direction
(PLC v module or module v PLC).
4 A GO button to start the transfer
5 A Write Only switch which prevents PLC v module
transfer
6 A Program Protect switch which protects the PLC application as read-only after the transfer
4
5
6
(1) Female 8-way mini-DIN type connector.
40050/5
Modicon TSX Nano PLCs
Characteristics :
pages 40050/9 to 40050/11
References :
pages 40050/12 to 40050/14
Dimensions :
page 40050/15
Connections :
pages 40050/16 to 40050/19
Nano PLCs
Functions
I/O extension (1)
Base
PLC
34 5
6
2
10 7
I/O
extension
34 5
6
2
10 7
Extension link
Each Nano base PLC can be extended using an I/O
extension. This extension is created by one of the PLCs
with 10, 16 or 24 I/O. The function of each PLC is defined
by the position of the coding selector switch :
i Position 0 : base PLC
i Position 1 : I/O extension
The extension link cable between the base PLC and the
I/O extension is a shielded, twisted pair and is no more than
200 metres long.
Peer PLCs (1)
Base
PLC
34 5
6
2
10 7
I/O
extension
34 5
6
2
10 7
PLC 2
PLC 3
34 5
6
2
10 7
34 5
6
2
10 7
PLC 4
34 5
6
2
10 7
Peer PLC & extension link
Inter-PLC communication
Each PLC has 2 reserved (IW) and 2 reserved (QW) words
for exchanging data between PLCs. These exchange words
are updated automatically. For each PLC, the user program
is only able to :
i Write to the 2 %QW output words
i Read the 2 %IW input words
QW
IW
IW
QW
IW
QW
IW
QW
Up to 3 peer PLCs, communicating via common words, can
be connected to the base PLC. In this case, only the base
PLC can receive an I/O extension. The function of each
PLC is defined by the position of the coding selector switch.
I/O addressing of peer PLCs is identical to that of the base
PLC.
The extension link cable between the base PLC and PLC
extensions is a shielded, twisted pair and is no more than
200 metres long.
QW
IW
QW
IW
Base
PLC
PLC 3
PLC 2
PLC 4
Displaying the I/O, internal bits and PLC status
State of 8 internal bits if %S69 = 1
System bit % S69
I
RUN ERR
0
1
2
3
4
0
1
2
3
4
5
6
5
6
7
8
O
COM I/O
Nano PLCs with 10 and 16 I/O
System bit % S69
State of 16 internal bits if %S69 = 1
I
RUN ERR
0
1
2
3
4
5
6
7
8
9
0
1
2
3
4
5
6
7
8
9
10 11 12 13
O
COM I/O
The results of the self-tests performed continuously by the
base PLC, peer PLCs and I/O extensions are displayed on
the front panel by 4 indicator lamps :
i RUN : PLC status
i ERR : internal fault
i COM : data exchange on the extension link
i I/O : I/O fault
I/O display
The state of each I/O is displayed on the front panel of the
PLC by an indicator lamp : when the lamp is on, the I/O is
active, when the lamp is off, the I/O is inactive.
Internal bits display
When the PLC system bit %S69 is set to 1, the first
indicator lamps show the state of 8 or 16 defined internal
bits (%M120…%M127 or %M112…%M127).
Nano PLCs with 24 I/O
Dedicated I/O
Base PLC
RUN/STOP
C012345
C012
The RUN/STOP input will launch or stop program execution
from an external order. After configuration, one of the first
6 inputs (%I0.0 to %I0.5) can be assigned to this function.
One of the first 4 outputs (%Q0.0 to %Q0.3) can be
configured to indicate to the user that the PLC program is
not running (STOP or fault).
(1) TSX 07 30/31 PLCs can no longer receive an I/O extension or peer PLC when the integrated Modbus link is in use.
TSX 07 32/33 ii28 and TSX 07 3L ii28 PLCs cannot take an I/O extension or peer PLC.
40050/6
Modicon TSX Nano PLCs
Characteristics :
pages 40050/9 to 40050/11
References :
pages 40050/12 to 40050/14
Dimensions :
page 40050/15
Connections :
pages 40050/16 to 40050/19
Nano PLCs
Functions (continued)
Real-time based programming
Nano PLCs with 16 or 24 I/O integrate 16 user-definable
real-time clocks which can be used to :
i Control the outputs directly (opening and closing electrical
circuits) or act on the user program according to the time
(month, day, hour and minute).
i Program time setpoints which can be modified via an
operator panel or calculated by the program.
i Program event time-stamping or perform time
calculations.
Nano PLC
Analogue I/O
The Nano PLC is designed for simple process control
applications (level, temperature, flow rate control, etc) with
speed controller or servo-valve control.
ASN
AEN
TSX 073i ii12
TSX AEN/ASN modules are used with Nano PLCs to
process 1 analogue input and 1 analogue output respectively :
i The input module, 0/10 V - 10/+ 10 V or 4/20 mA is
connected to the a 24 V input %I0.0 of the PLC and is
configured in frequency meter mode.
i The output module, 0/10 V - 10/+ 10 V or 4/20 mA uses
the pulse width modulation transistor output %Q0.0.
Analogue processing is also possible using three
TSX 07 32/33 ii28 bases which consist of 1 analogue
input 0-10 V.
High-speed processing applications
Nano PLC
On a base PLC or peer PLC, each of the first 6 inputs (%I0.0
to %I0.5) can be assigned to the latching function after
configuration. This function is used to take account of input
pulses with short durations, 100 µs minimum.
Nano PLCs include standard functions which are easy to
set up and can be used for adaptation to control systems
requiring counting capacity or short response times :
i Fast counter (maximum frequency 10 kHz)
i Fast up/down counter (maximum frequency 1 kHz)
i Frequency meter (maximum frequency 10 kHz)
Sensors which are used on the up/down counter inputs
(%I0.0 and %I0.3) must have solid state outputs.
2 reflex outputs (%Q0.1 and %Q0.2) are controlled directly
by the fast counter (without waiting for outputs to be
updated at the end of the scan) according to a matrix
predefined during configuration.
Pulse outputs
Nano PLC
After configuration, the first output %Q0.0 (if it is a transistor
output) of the Nano PLC can be used with :
i The PWM software function, as a pulse width modulation
output at a predefined frequency of up to 4.9 kHz
designed for use in applications with light or sound
intensity control (dimmer function).
i The PULSE software function, as a pulse generator
output of up to 4.9 kHz designed for use for controlling
stepper motors.
40050/7
Modicon TSX Nano PLCs
Characteristics :
pages 40050/9 to 40050/11
References :
pages 40050/12 to 40050/14
Dimensions :
page 40050/15
Connections :
pages 40050/16 to 40050/19
Nano PLCs
Functions (continued)
Uni-Telway communication
The Nano PLC can communicate with other Uni-Telway
devices via the terminal port : speed controllers, operator
terminals, compact or modular PLCs.
The ability to send and receive messages means that Nano
PLCs can be integrated in distributed architectures.
In slave mode, for example, the Nano PLC can initiate
communication and send updated variables to the bus
master (local reflex processing).
Micro
Nano
28 Nano slave PLCs can be connected to the Uni-Telway
bus over a distance of 1 km (isolated for speeds of 1.2 to 9.6
K bits/s).
CCX 17
Modbus slave communication
Nano PLCs have an RS 485 serial link extension port,
supporting the Modbus protocol (depending on the model).
It is used to perform the following requests :
i
i
i
i
Read/write bits and words
Read PLC status (via Uni-TE request)
Set to RUN or STOP mode (via Uni-TE request)
Initialise the PLC (via Uni-TE request)
Up to 28 Nano PLCs can be connected over a distance of
200 m for user-definable speeds of 1.2 to 19.2 K bits/s.
ASCII communication
The ability to send and receive characters enables the
Nano PLC to communicate in point-to-point mode with a
large number of ASCII devices, such as PCs (directly or via
modem), printers, bar code readers, etc.
Bar
code
reader
Frame speed and format can be configured. Connection to
the Nano PLC terminal port is via an RS 232/485 converter
cable powered by the PLC.
Modem application (Modbus or Uni-Telway protocol)
Micro
Nano
Nano
Nano
A PLC fitted with a Modbus or Uni-Telway master module
interrogates Nano PLCs via the switched telephone network.
When connected to a Modem in RS 485 mode, the master
can use the link to generate dialling sequences for remote
sites.
Each Nano PLC responds to requests from the master, but
is also able to trigger a call by activation of a discrete input
on the Modem.
Target applications (with Modbus or Uni-Telway) :
i System teleprocessing
i Telemonitoring of remote sites
i Water, energy, environment control
The Uni-Telway slave link of Nano PLCs can also be used
for :
i Up/down loading programs
i Programming and remote diagnostics
40050/8
Modicon TSX Nano PLCs
Nano PLCs
References :
pages 40050/12 to 40050/14
Dimensions :
page 40050/15
Connections :
pages 40050/16 to 40050/19
Characteristics
Environment
Conforming to standards
Temperature
Humidity
IEC 1131-2, IEC 664, UL 508, UL 746 C, UL 94, CSA 22-2 no. 142, EN 50081/class B
Operation
°C
0…+ 60
Storage
°C
- 25…+ 70
Without condensation
%
5…95
m
0…2000
Altitude
Vibration resistance
Conforming to IEC 68-2-6 FC tests
Mechanical shock resistance
Conforming to IEC 68-2-27 EA tests
Power supply characteristics
Type of PLC
Supply
voltage
Frequency
TSX 07 30/31/32/33 iii8, TSX 07 3L ii28,
TSX 07 EX ii28
TSX 07 30/31 iii2, TSX 07 EX ii12
Nominal
V
c 100…240
a 24
Limit
V
85…264
19.2…30
Nominal
Hz
50/60
–
Limit
Hz
47…63
–
≤ 30 VA
≤ 14 W
Power required
Sensor protected power supply
V
24/150 mA
–
Primary/earth isolation
Vrms
2000/50-60 Hz
2000/50-60 Hz
Microbreaks
ms
≤ 10
≤1
V
a 24 (resistive)
c 115 (capacitive)
Voltage
V
a 24
c 110/120
Current
mA
7
10
Sensor supply
V
a 19.2…30 (including ripple)
–
At state 1
Voltage
V
≥ 11
≥ 79
Current
mA
≥ 2.5 for 11 V
≥ 4 for 79 V
Voltage
V
≤5
≤ 20
Current
mA
≤ 1.2
≤2
Logic
Positive or negative depending on wiring
–
Filter time
12 ms, 3 ms or 100 µs (on I0.0 to I0.7)/375 µs
(on I0.8 to I0.13)
12 ms
Betw. grps of I/O points Vrms
1500/50-60 Hz
1500/50-60 Hz
Type
Optoelectronic module
–
Duration
Discrete input characteristics
Type of input
Nominal
input
values
Limit input
values
At state 0
Isolation
40050/9
Modicon TSX Nano PLCs
Nano PLCs
References :
pages 40050/12 to 40050/14
Dimensions :
page 40050/15
Connections :
pages 40050/16 to 40050/19
Characteristics (continued)
Discrete output characteristics
Type of output
Relay
Transistor, positive logic
Transistor, negative logic
Output description
1 normally open contact
Protected
Non-protected
Loads
(nominal
values)
a loads
Voltage
V
c 24…220
a 24
a 24
Nominal current
A
–
0.5
0.5
Tungsten lamp
W
–
≤ 10
≤ 10
Voltage
V
24
19.2…30
19.2…30
6
Current
A
DC-12 : 1-24 V (0.3 x 10 op. cycles)
DC-13 : 0.4-24 V (1 x 106 op. cycles)
0.625 (at 30 V)
common to “-” loads
0.625 (at 30 V)
common to “+” loads
AC-12 resistive
duty
A
1-110/220 V (0.5 x 106 op. cycles)
0.5-110/220 V (2 x 106 op. cycles)
1-48 V (0.5 x 106 op. cycles)
2-24 V (0.3 x 106 op. cycles)
1-24 V (0.5 x 106 op. cycles)
–
–
AC-15 inductive
duty
A
0.22-220 V (1 x 106 op. cycles)
0.5-24/48/110 V (1 x 106 op. cycles)
1-24 V (0.2 x 106 op. cycles)
–
–
State 0 to 1
ms
≤5
≤1
≤1
State 1 to 0
ms
≤ 10
≤1
≤1
Leakage
current
At state 0
mA
–
≤1
≤1
Voltage
drop
At state 1
V
–
≤ 2 (for I = 0.5 A)
≤ 1.5 (for I = 0.5 A)
Built-in
protection
Overloads
and short-circuits
None (fit one fuse per I/O point or
group of I/O points)
Yes
None (fit a fuse on the preactuator
common)
Overvoltages
None (fit RC or GMOV peak limiter circ. Yes
for c and a freewheel diode for a )
Yes
–
Yes
c loads
Response
time
Polarity
inversions
Integrated analogue input characteristics
TSX 07 32/33 ii28
Type of PLC
Analogue
input
Conversion
Isolation
Number of points
Input range
V
0…10
Input impedance
kΩ
16…18
Max. voltage
without destruction
V
± 16
Type of protection
Against short-circuits
Method
Resolution
Conversion time
Precision at 25 °C
at 60 °C
Drift
Repeatability
V
Successive approximations
8 bits
PLC scan time
± 0.8
±2
0.34 % per 10 °C
± 0.8 % of 0 to 60 °C (at full scale)
V
None
m
30 max.
m
10 max.
Analogue input
and processor
Wiring
Isolated sensor
distance with
shielded cable Non-isolated sensor
40050/10
1
% FS
% FS
Yes
Modicon TSX Nano PLCs
Nano PLCs
References :
pages 40050/12 to 40050/14
Dimensions :
page 40050/15
Connections :
pages 40050/16 to 40050/19
Characteristics (continued)
Modbus characteristics
Type of PLC
TSX 07 30/31 iiii
Structure
Description
Physical interface
Heterogeneous industrial bus
RS 485 non-isolated
Method of access
Master/slave type
Mode
Asynchronous in base band, RTU/ASCII frame
Bit rate
1.2 K bits/s to 19.2 K bits/s
Medium
Double shielded twisted pair
Number of devices
28 devices maximum, 98 link addresses maximum
Bus length
200 m maximum
Drop cable
15 m maximum
Transmission
Configuration
Available Modbus/Jbus slave
functions
Code
01
02
03
04
Description
Reading of n
Reading of n
Reading of n
Reading of n
Services
Sending requests
Bits : 120 bits maximum per request
Words : 120 words maximum per request
Safety
One CRC 16 check parameter on each frame
Monitoring
Diagnostics counters, event counters
consecutive
consecutive
consecutive
consecutive
output bits
input bits
output words
input words
Code
05
06
15
16
Description
Writing of 1 output bit
Writing of 1 output word
Writing of n output bits
Writing of n output words
ASCII asynchronous serial link characteristics
TSX 07 30/31/32/33 iiii, TSX 07 3L iiii
Type of PLC
Physical layer
Terminal port
RS 485 non-isolated Half-duplex (10 m max)
Flow rate
1.2 K bits/s to 9.6 K bits/s
Transmission
Type
Data
Stop bit
Parity bit
Point-to-point, without flux control (Xon-Xoff, RTS/CTS)
7 or 8 bits
1 or 2 bits
Even, odd or no parity
Services
120 character messages
Transmission/reception
Uni-Telway integrated link characteristics (general characteristics, see page 43594/2)
TSX 07 30/31/32/33 iiii, TSX 07 3L iiii
Type of PLC
Structure
Physical interface
Bit rate
Functions
RS 485 terminal port Half-duplex non-isolated
1.2 to 9.6 K bits/s
Master/slave
Configuration
Number of devices
Master : 3 devices maximum (5 link addresses maximum)
Slave : 28 devices maximum
(96 link addresses max.)
Bus length
10 m max, 1000 m when using the TSX P ACC 01 terminal port cable connector
Uni-TE server
Writing or reading Nano master data after a request is sent by a connected
client device
Reception of messages from all
devices on the bus (master or slave)
128 bytes maximum
Uni-TE client
(master function)
Sending requests (128 bytes maximum) to :
- all slave devices on the bus
Uni-TE client
(slave function)
Sending messages to every device on
the bus (master or slave), 128 bytes
maximum
Services
40050/11
Modicon TSX Nano PLCs
Nano PLCs
Characteristics :
pages 40050/9 to 40050/11
Dimensions :
page 40050/15
Connections :
pages 40050/16 to 40050/19
References
Non-extendable Nano PLC bases
TSX 07 3L 1428
These bases will not accept any extension. They incorporate extended communication : Uni-Telway master/slave link or
ASCII link for transmission/reception.
a 24 V/150 mA sensor power supply is not protected.
Number
Inputs
Relay
Transistor outputs
Reference
Weight
of I/O
outputs
24 V/0.5 A
(1)
kg
c 100…240 V power supply
TSX 07 3L 2028
14
8 a 24 V
6
–
TSX 07 3L 1428
0.320
20
12 a 24 V
8
–
TSX 07 3L 2028
0.340
Extendable Nano PLC bases
These Nano PLC bases are used as base PLCs (1 per configuration), as I/O extensions (maximum 1 per configuration)
or as peer PLCs (maximum 3 per configuration). They integrate an extended communication function : Uni-Telway master/
slave link or ASCII link in transmission/reception and Modbus slave link.
Number
Inputs
Relay
Transistor outputs
Reference
Weight
of I/O
outputs
24 V/0.5 A
(1)
kg
a 24 V power supply
10
6 a 24 V
4
–
TSX 07 30 1022
0.290
–
4 protected,
positive logic
TSX 07 30 1012
0.270
4 unprotected,
negative logic
TSX 07 30 1002
0.270
7
–
TSX 07 31 1622
0.350
–
7 protected,
positive logic
TSX 07 31 1612
0.325
7 unprotected,
negative logic
TSX 07 31 1602
0.325
10
–
TSX 07 31 2422
0.400
–
10 protected,
positive logic
TSX 07 31 2412
0.370
10 unprotected,
negative logic
TSX 07 31 2402
0.370
TSX 07 i 0 10ii
16
9 a 24 V
TSX 07 i 1 16ii
24
TSX 07 i 1 24ii
14 a 24 V
(1) Multilingual quick reference guide included as standard (English, French, German, Italian and Spanish).
40050/12
Modicon TSX Nano PLCs
Nano PLCs
Characteristics :
pages 40050/9 to 40050/11
Dimensions :
page 40050/15
Connections :
pages 40050/16 to 40050/19
References (continued)
Extendable Nano PLC bases (continued)
Number
of I/O
Inputs
Relay
outputs
Transistor outputs
24 V/0.5 A
Reference
(1)
Weight
kg
4
–
TSX 07 30 1028
0.300
–
4 unprotected,
negative logic
TSX 07 30 1008
0.280
9 c 115 V
7
–
TSX 07 31 1648
0.390
9 a 24 V
7
–
TSX 07 31 1628
0.360
–
7 unprotected,
negative logic
TSX 07 31 1608
0.335
10
–
TSX 07 31 2428
0.410
–
10 unprotected,
negative logic
TSX 07 31 2408
0.380
c 100…240 V power supply
TSX 07 i 1 16ii
10
16
6 a 24 V
TSX 07 i 1 24ii/TSX 07 21 1648
24
14 a 24 V
Nano PLC bases (with an integrated analogue input) (2)
c 100…240 V power supply
Number
Inputs
of I/O
TSX 07 33 1628
Relay
outputs
Integrated
analogue input
Reference
(1)
Weight
kg
10
6 a 24 V
4
1 x 0…10 V
TSX 07 32 1028
0.290
16
9 a 24 V
7
1 x 0…10 V
TSX 07 33 1628
0.290
24
14 a 24 V
10
1 x 0…10 V
TSX 07 33 2428
0.290
Nano PLC extensions
These extensions can be used to augment extendable Nano PLC bases at minimum cost (maximum 1 extension per base).
TSX 07 EX 16ii
Number
of I/O
Inputs
Relay
outputs
Transistor outputs
24 V/0.5 A
Reference
(1)
Weight
kg
a 24 V power supply
16
9 a 24 V
–
7 protected,
positive logic
TSX 07 EX 1612
0.325
24
14 a 24 V
–
10 protected,
positive logic
TSX 07 EX 2412
0.370
c 100…240 V power supply
16
9 a 24 V
7
–
TSX 07 EX 1628
0.360
24
14 a 24 V
10
–
TSX 07 EX 2428
0.410
TSX 07 EX 24ii
(1) Multilingual quick reference guide included as standard (English, French, German, Italian and Spanish).
(2) TSX 07 32/33 ii28 PLCs do not have I/O extension and/or PLC extension links or the Modbus slave link.
40050/13
Modicon TSX Nano PLCs
Nano PLCs
Characteristics :
pages 40050/9 to 40050/11
Dimensions :
page 40050/15
Connections :
pages 40050/16 to 40050/19
References (continued)
Separate parts
TSX PRG LDR
Description
Use with
Length
Reference
Program
loader
with programming
port
connecting cable
Simplifies duplicating or
updating applications
(program and constants
in internal RAM)
0.3 m
TSX PRG LDR
0.150
Input
simulator
a 24/c 115 V
Nano PLC with 10 I/O
–
TSX 07 SIM 06
0.050
Nano PLC with 16 I/O
–
TSX 07 SIM 09
0.070
Nano PLC with 24 I/O
–
TSX 07 SIM 14
0.080
I/O extension
0.3 m
TSX CA0 003
0.015
PLC extension
50 m
TSX STC 050
1.710
200 m
TSX STC 200
6.790
Connecting cables
between
Nano PLC bases
Connecting cable
for Modem
(DCE)
Nano PLC terminal port
connection to the Modem
device (with 25-way male
SUB-D connector)
2,5 m
TSX PCX 1130
0.240
Terminal port
cable
connector
Isolation of Uni-Telway signals
for distances > 10 m
and < 1 km, line termination,
bus drop cable
1m
TSX P ACC 01
0.690
Description
Composition
Reference
Self-instruction
cases (1)
1 Nano PLC (16 I/O),
1 input simulator and 1 FTX 117
TSX SDC 07 30 117
0.950
1 Nano PLC (16 I/O),
1 input simulator
and software under DOS for FT 2000/FTX 517
TSX SDC 07 30 DSF
0.600
1 Nano PLC (16 I/O),
1 input simulator
and software under DOS for PC compatible
TSX SDC 07 30 DSP
0.600
TSX P ACC 01
(1) Multilingual quick reference guide included as standard (English, French, German, Italian and Spanish).
40050/14
Weight
kg
Weight
kg
Modicon TSX Nano PLCs
Nano PLCs
Dimensions, mounting
Dimensions
77
Mounting
85
60
(1)
G
a
a
105
135
165
TSX 07 3i 10ii
TSX 07 3i 16ii, TSX 07 3L 1428
TSX 07 3i 24ii, TSX 07 31 1648, TSX 07 3L 2028
(1) 2 knock-outs Ø 4
G
86
116
146
Mounting
By clicking onto 35 mm " DIN rail, or by screwing onto panel using Ø M3 screws
Mounting
Removal
Mounting positions on vertical plane
Possible mounting positions
Incorrect mounting position
2
2
1
1
1
1 End stop AB1-AB8P35
2 Access cover
Installation rules
1
2
a
b
a
1 Switchgear, enclosure or machine frame
2 Cable ducting or clips
a ≥ 20 mm
b ≥ 40 mm
2
a
Characteristics :
pages 40050/9 to 40050/11
References :
pages 40050/12 to 40050/14
Connections :
pages 40050/16 to 40050/19
Warning : Avoid placing heat generating devices
(transformers, power supplies, contactors, etc)
beneath the Nano PLC.
40050/15
Modicon TSX Nano PLCs
Nano PLCs
Connection of inputs
Characteristics :
pages 40050/9 to 40050/11
References :
pages 40050/12 to 40050/14
Power supply a 24 V, 6, 9 or 14 inputs a 24 V
TSX 07 30/31 iii2, TSX 07 EX iii12
Positive logic
Negative logic
a 24 V
24 V
+
+
+
–
3-wire prox. sens.
–
(1)
+ –
+
PNP
C
–
+ 2-wire prox. sens.
0
2
3
4
+
(1)
–
1
–
3-wire prox. sens.
5
+ –
13
C
– 2-wire prox. sens.
–
NPN
0
+
1
Inputs
2
3
4
5
13
Inputs
Power supply c 100/240 V, 6, 8, 9, 12 or 14 inputs a 24 V
TSX 07 30/31 iii8, TSX 07 32/33 iii8, TSX 07 EX iii28, TSX 07 3Lii28
Positive logic
Negative logic
c 100/240 V
c 100/240 V
+
–
3-wire prox. sens.
–
(1)
L
+ –
N
+
PNP
C
0
2-wire prox. sens.
+
(1)
–
1
2
a
a 24 V
3
4
5
13
c 115 V
L
(1)
(1)
L
N
C
0
1
2
3
4
5
6
7
8
Inputs
Analogue input
TSX 07 32 1028/33 ii28
Nano with analogue input
0-10V
NC +
–
(2)
(2)
Sensor
(1) 3 A fuse.
(2) Earth connection required for non-isolated sensor.
40050/16
N
+ –
a
a 24 V
Inputs
N
+
L
Power supply c 100/240 V, 9 inputs c 115 V
TSX 07 31 1648
c 100/240 V
3-wire prox. sens.
NPN
C
0
– 2-wire prox. sens.
–
+
1
2
3
Inputs
4
5
13
Modicon TSX Nano PLCs
Nano PLCs
Connection of relay outputs
Characteristics :
pages 40050/9 to 40050/11
References :
pages 40050/12 to 40050/14
Power supply a 24 V or c 110…220 V (1)
TSX 07 30 1022/1028, TSX 07 32 1028
TSX 07 3L 1428
4 outputs
C
0
1
6 outputs
2
C
C
3
0
1
2
3
C
4
5
Preactuators
(2)
Preactuators
N
c
(2)
(2)
(2)
L
L
L
N
N
L
N
c 24…240 V/a 24 V
24…240 V/a 24 V
TSX 07 31 1622/1628, TSX 07 33 1628, TSX 07 EX 1628
7 outputs
C
0
1
2
3
C
4
5
C
6
Preactuators
(2)
(2)
L
N
(2)
L
L
N
N
c 24…240 V/a 24 V
TSX 07 3L 2028
TSX 07 31 2422/2428, TSX 07 33 2428, TSX 07 EX 2428
8 outputs
C
0
1
2
3
10 outputs
4
C
5
6
7
C
0
1
2
3
4
C
5
6
7
C
8
C
9
Preactuators
Preactuators
(2)
(2)
(2)
L
L
N
(2)
(2)
N
L
c 24…240 V/a 24 V
N
L
(2)
N
L
N
L
N
c 24…240 V/a 24 V
Power supply c 110…220 V (1)
TSX 07 31 1648
7 outputs
C
0
1
2
3
C
4
C
5
C
6
Preactuators
(2)
(2)
L
(2)
(2)
N
L
N
L
N
L
N
c 24…240 V/ a 24 V
(1) Provide an inductive overload protection device at the load terminals and for each output : an RC or GMOV type peak
limiter circuit for c , a flywheel diode for a .
(2) Fuse rated for load.
40050/17
Modicon TSX Nano PLCs
Nano PLCs
Characteristics :
pages 40050/9 to 40050/11
References :
pages 40050/12 to 40050/14
Connection of a 24 V transistor outputs
Power supply a 24 V, positive logic transistor outputs
TSX 07 30 1012
TSX 07 31 1612, TSX 07 EX 1612
Outputs
Outputs
C
0
1
2
–V
3
C
0
1
2
3
C
4
5
6
–V
Preactuators
Preactuators
(1)
(1)
(1)
+ –
+ – a 24 V
a 24 V
TSX 07 31 2412, TSX 07 EX 2412
Outputs
C
0
1
2
3
4
C
5
6
7
8
9
–V
Preactuators
(1)
(1)
+ –
a 24 V
Power supply a 24 V, negative logic transistor outputs
TSX 07 30 1002/1008
TSX 07 31 1602/1608
Outputs
C
0
1
2
Outputs
3
+V
C
0
1
2
Preactuators
(1)
(1)
– + a 24 V
TSX 07 31 2402/2408, TSX 07 31 2408
Outputs
0
1
2
3
4
C
5
6
7
8
9
+V
Preactuators
(1)
– + a 24 V
(1) Fuse rated for load.
40050/18
C
4
5
6
+V
Preactuators
– + a 24 V
C
3
Modicon TSX Nano PLCs
Nano PLCs
Characteristics :
pages 40050/9 to 40050/11
References :
pages 40050/12 to 40050/14
Connection of extensions
Connection to Modbus and Uni-Telway buses
Connection of extensions
Nano
base PLC
Nano
I/O extension
B SG
A
A
Nano
PLC
extension
B SG
(1)
A
B SG
(2)
(1) TSX CA0 003 cable (0.3 m long) or shielded twisted pair cable.
(2) Remote location (200 m max) of Nano PLC extensions requires either :
i TSX STC 050 cable (50 m long) or TSX STC 200 (200 m long), or
i Shielded twisted pair cable with the following main characteristics :
- Mechanical characteristics : tinned copper core, 18 to 24 gauge with tinned copper shielding
- Electrical characteristics : load resistance per unit length of one wire : ≤ 85 Ω/km, load resistance per unit length of
shielding : ≤ 12 Ω/Km
Connection of Modbus bus
Nano
base PLC
Nano
base PLC
A
B SG
A
Nano
base PLC
B SG
A
B SG
(1)
To Modbus master
device
(1) Shielded twisted pair cable
Connection of Uni-Telway bus
4
1
FT 2000
2
2
TER AUX
3
5
4
CCX 17
Nano
ATV
1 TSX CSA iii : bus cable, double twisted shielded pair. The shielding must be taken to earth at each device.
2 TSX SCA 62 : passive 2-channel subscriber socket (see page 43594/5).
3 XBT-Z908 : connecting cable between the CCX 17 operator panel and the TSX SCA 62 subscriber socket (see page
43594/5).
4 TSX PCU 1030 : Uni-Telway connecting cable between the PC compatible FT 2000 terminal and the TER port of Nano
PLCs or TSX P ACC 01 connectors.
T FTX CBF 020 : Uni-Telway connecting cable between the FTX 517 terminal and the TER port of Nano PLCs or TSX
P ACC 01 connectors.
5 TSX P ACC 01 : cable connector from a Nano PLC to the Uni-Telway bus via the PLC terminal port. The connecting
cable (1 m long) is integrated in the cable connector. It isolates signals (over a distance > 10 m) and adapts line
termination impedance. It is also used to select the terminal port (Uni-Telway master/slave or character mode).
40050/19