Sales and production discontinued

CP-1008TXN 110 08

CP-1008, CPU, ETH100/10, 1xRS232, 1xSCH, 10xAI/DI, 2xAI, 4xAO, 7xRO, 4xSSR, 1xCIB

DI	10x DI/AI - see AI 1x DI/230V AC
DO	7x RO 4x SSR
AI	10x DI/AI - see DI 2x AI
AO	4x AO
COM	1x ETH 1x RS-232 1-3x Serial channel (1x free slot) 1x TCL2 1x CIB
SENSOR

Picture	Variant	Variant description
	CP-1008
	CP-1018

The basic module CP-1008 is equipped:

ten multipurpose inputs, each of which can be used either as analog or as binary
two analog inputs, which can be used for voltage measurement or for connecting thermocouples and a lambda probe one binary input for 230 V AC
four triac outputs, usable as PWM outputs
four analog outputs 0 to 10 V
seven relay outputs (two relay outputs are connected to triac outputs and allow control of the direction of AC motors).

The CP-1008 basic module is equipped with a central unit (CPU) of the K series, which is designed for applications with performance requirements. Includes backed up CMOS RAM for user programs, data, tables, user registers and DataBox, Flash memory for user program backup, slot for MMC / SD / SDHC memory card, real time circuit, Ethernet interface, two serial channels (one with fixed interface RS-232, the other with a position for optional submodules), one communication channel with a CIB interface for connecting external peripherals and a TCL2 system interface designed for connecting expansion modules that increase the number of I / O systems.

Order num.	TXN 110 08
Teco code	TXN 110 08
Categories	Foxtrot 1 - Basic modules
Tags	Sales and production discontinued

System parameters of the central unit
Row of central unit	K
User program memory	192 + 64 kB
Memory for user variables / including RETAIN variables	64 kB/32 kB
Instruction length	2 ÷ 10 bytes
Backup of program source code in PLC	Yes, in program backup memory (EEPROM)
On-line program change in PLC	Yes, including I / O configuration change
Memory for project archiving - internal	2 MB
DataBox - additional internal data memory	512 kB
Optional memory card slot	SD - Card Slot
Cycle time per 1k of logic instructions	0,2 ms
Development environment	Mosaic
Programming languages	ST, IL, LD, FBD, SFC, CFC
RTC - Real time circuit	No
RAM and RTC backup 1) without / with backup battery	type. 500 hr / typ. 20,000 hours
Integrated Web server	Yes
Integrated Datalogger	Yes
Access to PLC variables via web API	Yes
Notice	1) Applies to the basic module without power supply, the backup circuits are disconnected when the power supply is switched on 2) The serial interface CH1 is permanently equipped with an RS-485 interface. The serial interface type CH2 to CH4 is selectable via interchangeable submodules
COM - Communication - IP/Ethernet
Ethernet 10/100 Mb (ETHx)	1
Available system modes on ETH and WLAN	UNI, PC, PLC, PLD
TCP / IP protocol	Yes
UDP protocol	Yes
HTTP protocol	Yes
WebSocket protocol	No
Protocol MODBUS/TCP	Yes
SMTP protocol	Yes
IEC 60870-5-104 protocol	Yes
REST API	Yes
COM - Serial channels
max. number of optional serial channels in the basic module	4
max. number of expanding serial channels on the TCL2 bus	6
Number of internal RS-232 serial channels	1
Available system modes on CH5-10	UNI, CSJ (CAN)
Modbus RTU / ASCII master protocol	No
Modbus protocol RTU/ASCII slave	No
Profibus DP master protocol (<180 kbit/s)	No
COM - System buses
TCL2 - system I/O bus	1x TCL2 master
TCL2 - Range of one branch of the system I/O bus	10 I / O modules + 4 operator panels + 6 serial channels
The communication rate of the system I / O bus	345 kbps
System I / O bus terminating resistor	120 Ω
CIB - Common Installation Bus (R): Installation I/O bus	1x CIB master (100 mA)
CIB - Address range of one branch of the installation bus	32 CFox I/O modules
DI - Organization of binary inputs
Total number of binary inputs	11
Number of groups of binary inputs	2
Organization of binary inputs into groups	10x DI/AI (DI0/AI0-DI9/AI9) 1x DI 230 V AC (DI10)
DI - Parameters of binary inputs DC (group A)
Parameters valid for inputs on the terminals	DI0-DI9
Number of inputs in group	10
Common wire	GND - module ground
Combined input type	DI/AI Active, for sensing potential-free contacts and measuring resistance sensors
Galvanic isolation of inputs from internal/peripheral circuits	No
Diagnostics	indication of energized input by LED on module panel
Input voltage for log. 0	2,3 V DC min.; 12 V DC max.
Input voltage for log. 1	1 V DC max.
Input current at log. 1 (typ.)	-1,7 mA
Delay from log. 0 to log. 1	1 ms
Delay from log. 1 to log. 0	1 ms
Notice	1) Inputs DI0 - DI9 can alternatively be used as analog (AI0 - AI9). The selection is made for individual inputs from the Mosaic development environment. 2) Due to the possible increase in interference on the analog inputs, it is not desirable to connect the common wire of the input switches to the AGND terminal.
DI - Parameters of binary AC inputs
Parameters valid for AC inputs on the terminals	DI10
Total number of binary AC inputs	1
Number of groups of AC inputs	1
Number of AC inputs in group	1
Organization of binary inputs into groups	1x DI 230 V AC (DI10)
Input type	230 V AC
Galvanic isolation of internal circuits	Yes
Input voltage for log. 0	0 V AC min., 120 V AC max.
Input voltage for log. 1	230 V AC typ., 200 V AC min., 250 V AC max.
Input current at log. 1 (typ.)	5 mA typ.
Delay from log. 0 to log. 1	10 ms
Delay from log. 1 to log. 0	10 ms
Notice	1) Inputs DI0 - DI9 can alternatively be used as analog (AI0 - AI9). The selection is made for individual inputs from the Mosaic development environment. 2) Due to the possible increase in interference on the analog inputs, it is not desirable to connect the common wire of the input switches to the AGND terminal.
DO/RO - Organization of binary outputs
Total number of binary outputs	11
Number of binary output groups	4
Organization of binary outputs into groups	2x DO 230 V AC triak (DO0-DO1) 2x DO 230 V AC triak (DO7-DO8) 1x RO (DO6) 2x RO (DO9-DO10) 4X RO (DO2-DO5)
DO - Parameters of SSR (solid state relay) outputs (group A)
Parameters valid for the terminals	DO0, DO1
Number of outputs in group	2
Organization of SSR outputs into groups	2 (DO0, DO1)
Max. current through COM terminal	2A max.
Output type	triac with switching at 0/PWM
Galvanic separation of the output	Yes
Diagnostics	signaling of excited output by LED diode
Switching voltage (V)	min. 20VAC, max. 260VAC
Switching current (A)	max. 0,7 A; min. 5 mA
Switching current at 25 ° C	IDO7 + IDO8 <4 A Maximum continuous current at which the thermal protection is not activated. If these values are exceeded, both outputs will be periodically disconnected due to thermal protection.
Switching current at 50 ° C	IDO7 + IDO8 <2 A Maximum continuous current at which the thermal protection is not activated. If these values are exceeded, both outputs will be periodically disconnected due to thermal protection.
Internal protection, output treatment	No
Short circuit protection	No
Overload protection	no
Treatment of inductive load	external - RC element, varistor
Insulation voltage between outputs and internal circuits	3750 V AC
Insulation voltage between groups of outputs	3750 V AC
DO - Parameters of SSR (solid state relay) outputs (group B)
Parameters valid for the terminals	DO7, DO8
Number of SSR outputs	2
Number of output groups	1
Number of outputs in group	2
Organization of SSR outputs into groups	2 (DO7-DO8)
Output type	triac with switching at 0
Galvanic separation of the output	No
Diagnostics	signaling of excited output by LED diode
Switching voltage (V)	min. 180VAC, max. 260VAC
Switching current (A)	max. 4 A; min. 50 mA
Switching current at 25 ° C	I_DO7 + I_DO8 < 4 A
Switching current at 50 ° C	I_DO7 + I_DO8 < 2 A
Internal protection, output treatment	No
Short circuit protection	No
Overload protection	thermal protection
Treatment of inductive load	internal RC element + varistor
Insulation voltage between outputs and internal circuits	3750 V AC
Notice	Maximum continuous current at which the thermal protection is not activated. If these values are exceeded, both outputs will be periodically disconnected due to thermal protection.
RO - Parameters of binary relay outputs (group A)
Parameters valid for the terminals	DO2 - DO5, DO9-DO10
Number of relay outputs	6
Number of output groups	3
Organization of relay outputs into groups	1(DO2)+3(DO3-DO5)+2(DO9-DO10)+DO6)
Output type	electromechanical relay, unprotected output
Contact type	NO - Normally Open
Galvanic separation from internal circuits	Yes
Galvanic isolation between groups	Yes
Diagnose	Alarm signaling on panel module
Switching current	3 A max., 10 mA min.
Switching voltage	250 V AC max., 5 V AC min., 30V DC max.
Short-term output overload - inrush	4 A max.
Current through common clamp	10 A max.
Contact closing time	typ. 10 ms
Contact opening time	typ. 4 ms
Limit values of switched resistive load	max. 3A at 30 V DC or 230 V AC
Switching inductive load limits DC13	max. 3 A at 30 V DC
Switching inductive load limits AC15	max. 3 A at 230 V AC
Switching frequency without load	max. 300 switching / min.
Switching frequency with rated load	max. 20 switching / min.
Mechanical life	min. 5,000,000 cycles
Electrical life at maximum resistive load	min. 100,000 cycles
Electrical life at maximum load inductive DC13	min. 100,000 cycles
Electrical life at maximum load inductive AC15	min. 100,000 cycles
Short-circuit protection	No
Treatment of inductive load	External RC element, varistor (AC), diode (DC)
Insulation voltage between outputs and internal circuits	3750 V AC
Isolation voltage between groups of outputs to each other	3750 V AC
Notice!	The insulation strength between groups with a common terminal COM3 and COM4 does not meet the requirements for double insulation. If one group is used for mains voltage, the other group must not be used for SELV or PELV voltage! DO9 + DO10 are connected to SSR outputs, see diagram
RO - Parameters of binary relay outputs (group B)
Parameters valid for the terminals	DO6
Number of relay outputs	1
Number of outputs in group	1
Organization of relay outputs into groups	1(DO6)
Output type	electromechanical relay, unprotected output
Contact type	NO - Normally Open
Galvanic separation from internal circuits	Yes
Galvanic isolation between groups	Yes
Diagnose	Alarm signaling on panel module
Switching current	10 A max., 10 mA min.
Switching voltage	max. 250 V AC; max. 30 V DC; min. 5 V
Short-circuit protection	No
Current through common clamp	15 A max.
Contact closing time	typ. 10 ms
Contact opening time	typ. 4 ms
Limit values of switched resistive load	max. 10A at 30 V DC or 230 V AC
Switching inductive load limits DC13	max. 10 A at 30 V
Switching inductive load limits AC15	max. 10 A at 230 V AC
Switching frequency without load	max. 60 sepnutí/min.
Switching frequency with rated load	max. 6 switching / min
Mechanical life	min. 5,000,000 cycles
Electrical life at maximum resistive load	min. 100,000 cycles
Electrical life at maximum load inductive DC13	min. 100,000 cycles
Electrical life at maximum load inductive AC15	min. 100,000 cycles
Treatment of inductive load	External RC element, varistor (AC), diode (DC)
Insulation voltage between outputs and internal circuits	3750 V AC
Isolation voltage between groups of outputs to each other	3750 V AC
Notice	The insulation strength between groups with a common terminal COM3 and COM4 does not meet the requirements for double insulation. If one group is used for mains voltage, the other group must not be used for SELV or PELV voltage!
AI - Organization of analog inputs
Total number of analog inputs	12
Number of analog input groups	2
Organization of analog inputs into groups	4(AI0-AI3) + 6(AI4-AI9) + 2 (AI10-AI11)
Input type	With common clamp
Common wire	Minus
Galvanic separation from internal circuits	No
Diagnostics	signaling overload, disconnection and short-circuiting of the sensor in the status word
Type of protection	integrated overvoltage protections
External power supply	No
Digital resolution	12 bit
Converter type	Approximation
Repeat time of sample	650 μs typ.
Total System Input Move Time (TAID + TAIT)	50 μs typ.
Filtration	low pass filter, digital comb filter 50/60 Hz
AI - Analog Input Ranges (Group A)
Parameters valid for inputs on the terminals	AI0 - AI3
Passive sensor	Pt1000, W100 = 1,385 (-90 to +400 ° C)
Passive sensor	Pt1000, W100 = 1,391 (-90 to +400 ° C)
Passive sensor	Ni1000, W100 = 1,500 (–60 to +200 ° C)
Passive sensor	Ni1000, W100 = 1.617 (-60 to +200 ° C)
Passive sensor	Resistance transmitter 0-2 kOhm
Passive sensor	KTY81-121; PTC thermistor (-55 to + 125 °C)
Input impedance in signal range RTD	> 4 kΩ
Reference voltage	8,34 V
Resistance measurement error - maximum error at 25 ° C	± 0.5% of full scale
Resistance measurement error - temperature coefficient	± 0.05% of full scale / K
Resistance measurement error - non-linearity	± 0.09% of full scale
Resistance measurement error - repeatability at steady conditions	0.07% of full scale
Max. permissible permanent overload of analog input (without damage)	–20 to +30 V (each AI terminal against AGND)
Detection of disconnected sensor	yes, in status word, range overflow
AI - Analog Input Ranges (Group B)
Parameters valid for inputs on the terminals	AI4-AI9
Ccurrent	0 - 20 mA
Current	4-20 mA
Current - resolution 1 LSB	6 μA
Input impedance in the current signal range	100 Ω
Passive sensor	Pt1000, W100 = 1,385 (-90 to +400 ° C)
Passive sensor	Pt1000, W100 = 1,391 (-90 to +400 ° C)
Passive sensor	Ni1000, W100 = 1,500 (–60 to +200 ° C)
Passive sensor	Ni1000, W100 = 1.617 (-60 to +200 ° C)
Passive sensor	Resistance sensor 0-2k
Passive sensor	Resistance transmitter 0-200kOhm
Passive sensor	KTY81-121; PTC thermistor (-55 to + 125 °C)
Passive sensor	NTC Thermistor 12k / 25 °C (-40 to + 125 °C)
Input impedance in signal range RTD	>4 kΩ
Reference voltage	8,34 V
Resistance measurement error - maximum error at 25 ° C	± 0.5% of full scale
Resistance measurement error - temperature coefficient	± 0.05% of full scale / K
Resistance measurement error - non-linearity	± 0.09% of full scale
Resistance measurement error - repeatability at steady conditions	0.07% of full scale
Detection of disconnected sensor	yes, in status word, range overflow
AI - Analog Input Ranges (Group C)
Parameters valid for inputs on the terminals	A10-A11
Voltage	0 to 2 V / 610.4 μV
Voltage	0 to 1 V / 305 μV
Voltage	–20 to +50 mV / 19 µV
Voltage	–20 to +100 mV / 38 µV
Thermocouple	Type J (-210 ° C to 1200 ° C)
Thermocouple	Type K (–200 to +1372 ° C)
Thermocouple	Type R (-50 to +1768 ° C)
Thermocouple	Type N (-200 ° C ÷ 1300 ° C)
Thermocouple	Type T (-200 ° C ÷ 400 ° C)
Thermocouple	Type B (250 ° C ÷ 1820 ° C)
Thermocouple	Type S (-50 ° C ÷ 1768 ° C
Lambda probe	2,85 - 21,21 %
Input impedance in the voltage signal range	> 1 GΩ
Permissible continuous overload - voltage input	-20 to 30 V (each AI terminal against AGND)
Voltage input error - maximum error at 25 ° C	± 0.4% of full scale
Voltage input error - temperature coefficient	± 0.03% of full scale / K
Voltage input error - non-linearity	± 0.07% of full scale
Voltage input error - repeatability under steady state conditions	0.05% of full scale
AO - Analog output parameters
The number of groups of analogue outputs	1
Number of outputs in group	4
Common wire of group	minus
Galvanic isolation from internal circuits	No
Output type	active voltage output
Type of protection	integrated overvoltage protections
Max. permissible permanent overload (without damage)	± 20 V, each terminal against AGND
Converter resolution	8 bit
conversion time	10 μs
Analog output error - maximum error at 25 ° C	± 2% of full scale
Analog output error - temperature coefficient	± 0.3% of full scale / K
Analog output error - linearity	± 0.7% of full scale
Analog output error - repeatability under steady state conditions	± 0.5% of full scale
Voltage output - voltage	0 - 10,5 V
Voltage output - Resolution 1 LSB	41 mV
Voltage output - maximum output current	10 mA
Power supply
Nominal supply voltage (V)	24 V DC
Supply voltage, tolerances	24 V DC, +25%, -15%, SELV
Supply voltage when backing up with an external battery	27 V DC, +10%, –15%, SELV
Typical power input	8 W
Maximum power input	10 W
Module thermal/power loss	10 W
Maximum current consumption (mA)	500 mA
Galvanic separation of power supply from internal circuits	No
Internal protection	Yes, PTC reversible fuse
Description of power supply	Difference between typical and maximum power input is given by possible load of CIB buses and number of switched outputs and CPU load
CIB branch power supply - parameters of the built-in master	1x 100 mA/ 24 V DC
Size and weight
Weight approx.	300 g
Product dimensions (width x height x depth)	158 x 92 x 63 mm
Module width in multiples of M (17.5 mm)	9M
Module width	158 mm
Module height	92 mm
Module depth	63 mm
Operating conditions, product standards
Product standard	ČSN EN 61131-2: 2005 (idt IEC61131-2: 2003) - Programmable control units
Protection class of electrical object	II, according to ČSN EN 61140: 2003 (idt IEC 61140: 2001)
IP rating (Ingress Protection) according to ČSN EN 60529: 1993 (idt IEC 529: 1989)	IP20
Operating areas	Normal, according to ČSN 33 2000-3: 1995 (mod IEC 364-3: 1993)
Degree of pollution	1, according to ČSN EN 60664-1: 2004 (mod IEC 60664-1: 1992)
Overvoltage category installation	II, acc. ČSN EN 60664-1:2004 (mod IEC 606641:1992)
Type of device	Module on DIN rail
Working position	Vertical
Type of operation (operating frequency)	Continuous
Ambient operating temperatures	-20 °C to + 55 °C
Operating relative humidity	from 10 % up to 95 % without condensation
Operating atmospheric pressure	min. 70 kPa (<3,000 m above sea level)
Storage temperatures	–25 °C to +70 °C
Electromagnetic compatibility, Mechanical endurance
Electromagnetic compatibility / Emission	A, according to EN 55022: 1999 (mod CISPR22: 1997)
Emmisions - note	In premises where the use of radio and television receivers can be expected to be used a distance of 10 m from these devices may cause radio interference. In such a case, the user may be required to take appropriate action.
Electromagnetic compatibility / Immunity	min. as required by EN 61131-2: 2007
Sinusoidal vibration endurance	10 Hz to 57 Hz, amplitude 0,075 mm, 57 Hz to 150 Hz, acceleration 1 G (Fc test according to EN 60068-2-6: 1997 (idt IEC 68-2-6: 1995), 10 cycles per axis.)
Packaginng, transportation, storage
Description	The module is packed in a paper box. This documentation is also part of the package. The outer packaging is carried out according to the scope of the order and the method of transport in a transport package provided with labels and other data necessary for transport. The product must not be exposed to direct weather conditions during transport and storage. Malting of the product is only allowed in clean rooms without conductive dust, aggressive gases and vapors. The most suitable storage temperature is 20 ° C
Installation
Assembly description	Switchboard mounting
Attention!	The device may contain parts with dangerous voltages, covers being removed, or cabling manipulated, or disconnect the appropriate circuits or turn off the power !.
Exchangeable submodules	The optional MR-01xx submodules with serial channel 2 interface are mounted on the center plate in the CP-10x0 basic module to the position indicated in Fig. 7.1. To add or replace a submodule with a serial channel interface, release the latches on
Connection
Connection via connectors	CIB - terminal block, conductor 2x max. 1,5 mm2
Connection of power and system communication	connector with 1.5 mm2 screw terminal
Connection of inputs / outputs	connector with screw terminal 1.5 mm2
Ethernet	RJ-45
Serial channels	screw-type connector 9x 1.5 mm2
Module installation tools	(-) 3 mm, flat screwdriver
Module operation
Module configuration	The module is operated, set up and diagnosed from the Mosaic development environment.
Module diagnostics	The basic diagnostic system of the module is a part of its standard software. It operates from module power on and operates independently of the user. Diagnostic error states of the module and connected peripheral modules of the assembly are signaled
Maintenance
Description	The module does not require any maintenance under general installation conditions. The operations in which a part of the module has to be dismantled must always be carried out with the supply voltage disconnected.
Warranty
Generally	Warranty and complaint conditions are governed by the Terms and Conditions of Teco a.s.
Notice	You must meet all the conditions of this documentation before turning on the system. The system must not be put into service unless it has been verified and confirmed that the machinery meets the requirements of Directive 89/392 / EEC, in so far as it applies to it. Documentation subject to change.

HW documentation

PDF

CP-1008

337.04 kB, (CS, EN)

User manuals

PDF

Foxtrot1 - User's Guide, cze, , TXV00410_01

3.40 MB

PDF

Foxtrot1 - User Manual (en), TXV00410_02

4.30 MB

Files for designers

DXF

CP-1008

470.66 kB

DWG

CP-1008

164.39 kB

CP-1008 - The CP-1008 is the basic module of the Foxtrot control system. The standard version is in a 9M housing on a DIN rail (for the housing dimensions, see Chapter 13.2.1 9M housing on a DIN rail ), and it is fitted with six removable terminal blocks....
Power dissipation of modules for calculation of switchboard heating - .../DI, 1xHSC, 1x DI/230V, 2xAO, 10xRO, 2xSSR, 1xCIB CP-1006 7,0 W TXN 110 08 CP-1008, CPU, ETH100/10, 1xRS232, 1xSCH, 10xAI/DI, 2xAI, 4xAO, 7xRO, 4xSSR, 1xCIB CP-1008 10,0 W...
Internal CIB master at the CP-10xx - ...CP-1006, CP-1016 100 mA 1 A (module C-BS-0001M ) CP-1008, CP-1018 100 mA 1 A (module C-BS-0001M ) ...
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Foxtrot basic module power supply - ...CP-1006, CP-1016 10 W 6 W CP-1008, CP-1018 10 W 6 W 1) All inputs and outputs are ener...
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Measuring temperature – technology - ...connected to the analogue inputs of CFox or RFox modules, or directly in the Foxtrot basic modules (e.g. the CP-1006 and CP-1008 ). The range of standard sensors can be found in the price list, and an overview of CFox modules suitable for measu...
Foxtrot 2 - Shifts to two! - ...rt 2 universal inputs to two analog outputs with a jumper to cover applications. , which required in the previous generation CP-1008, which had four analog outputs. We focused the first information about the new generation of the Tec...
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Measurement of production and consumption of el. energy, 3f fast measurement, electricity me - For fast and accurate measurement of 3f network (measurement of phase voltages, currents, active and reactive powers, power factors, THD voltages and currents and frequencies in the LV network, etc.), in the range of rated currents from 15 A to 150...
Measurement of DC voltage, current and power (PV, etc.) - In applications with photovoltaic panels or a small wind turbine, we sometimes need to measure the DC network - DC voltage, current and power. For measuring voltage up to 400 VDC, current up to 1000 ADC we can use DC electricity meter VMU-E. The bas...
The SMM33 module for measuring and analysis of 3ph network - In order to provide a detailed analysis of a 3ph network (measuring and monitoring the line and phase voltages, currents, active and reactive power, the power factor, THD voltages and currents and frequencies in the low-voltage network, etc.), you...
Connecting an electricity meter via the TXN 149 01 optical head - The TXN 149 01 optical interface probe (also called an optical head) is designed to read data and to communicate with the electricity meter, the ripple control receiver and other devices. The probe converts optical signals into signals of the serial...
Measurement of high temperatures up to 1100 ° C, TC, C-IT-0200I - The flue gas temperature of the boiler and other applications in the field of high temperature measurement can be measured using temperature sensors equipped with a thermocouple sensor. Thermocouples can be measured with the C-IT-0200I module (...

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CP-1008TXN 110 08

HW documentation

CP-1008

User manuals

Foxtrot1 - User's Guide, cze, , TXV00410_01

Foxtrot1 - User Manual (en), TXV00410_02

Files for designers

CP-1008

CP-1008

Confirmation