140XTS00206 Schneider Electric Modicon Quantum Datasheet & Technical Manual

TSXAEY800 Schneider Electric Modicon Premium Analog Input Module

TSXAEY800 Schneider Electric Modicon Premium Analog Input Module

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Schneider Electric TSXAEY800 Modicon Premium Analog Input Module The Schneider Electric TSXAEY800, also cataloged as the TSXAEY800 Analog Input Module,...

SKU: TSXAEY800

Manufacturer: Schneider
Product No.: TSXAEY800
Product Type: Analog Input Modules
Product Origin: France
Payment:T/T, Western Union
Weight: 310g
Shipping port: Xiamen
Warranty: 12 months

Description Reviews

Schneider Electric TSXAEY800 Modicon Premium Analog Input Module

The Schneider Electric TSXAEY800, also cataloged as the TSXAEY800 Analog Input Module, operates as a dedicated hardware component for high-level analog signal acquisition within Modicon Premium Automation Platform architectures. The hardware scans up to eight independent analog field channels to convert voltage and current inputs into 12-bit digital values for internal logic processing. Operating on a nominal read cycle time of 27 ms, this standard-format module routes conditioned data directly to the host central processing unit via the rack backplane interface.

Hardware Specifications

Parameter	Specification
Model	TSXAEY800
Brand	Schneider Electric
Origin	France
Weight	0.31 kg
Dimensions	Standard Modicon Premium module format
Operating Temp	0 to 60 deg C
Power Consumption	270 mA at 5 VDC
Analogue Input Number	8 channels (High Level)
Analog/Digital Conversion	12 bits
Nominal Read Cycle Time	27 ms
Fast Read Cycle Time	3 ms + (3 ms x number of channels used)
Isolation Between Channels and Bus	1000 Vrms
Isolation Between Channels and Ground	1000 Vrms
Electrical Connection	1 x 25-pin SUB-D connector
Input Overvoltage Protection	-15 to 15 V (state 0), -30 to 30 V (state 1) at 250 Ohm

Deterministic Network Architectures and I/O Density Scaling

This Schneider Electric hardware subsystem utilizes synchronous data parsing to maintain steady data throughput speeds across internal backplane buses. The eight-channel topology optimizes space constraints inside the main rack enclosure by scaling high-level signal density onto a single 25-pin SUB-D connector interface. To protect internal logic components from industrial field disturbances, integrated optocouplers enforce a continuous 1000 Vrms isolation barrier between the input lines and the backplane logic. Furthermore, flash-compatible firmware routines govern the conversion matrix, which allows the main PLC processor to execute time-critical control loop calculations without signal transmission latency.

Frequently Asked Questions

Q: What is the exact mathematical formula used to compute the total module throughput execution delay when configured for fast read cycle times?

A: The hardware computes the execution window by adding a baseline processing time of 3 ms to an incremental value of 3 ms multiplied by the number of active input channels in the configuration software.

Q: How does the module handle a sustained overcurrent event occurring on a current-loop input channel?

A: The input circuit contains active overcurrent protection designed to withstand continuous signal currents ranging from -30 mA up to 30 mA at an internal resistance value of 250 kOhm without triggering component failure.

Q: Can the internal analog-to-digital converter map differential voltage signals that lack a shared reference point?

A: No, the hardware channels use a common point electrical topology, which requires all incoming high-level analog fields to share a single ground reference line through the 25-pin SUB-D connector interface.

Field Installation Guidelines

Engineers must slot the analog module directly into a valid position on a Modicon Premium backplane rack. Turn off the primary system power supply completely before inserting or removing the module layout to prevent electrical transients from disrupting the backplane bus communication link.

Secure the connection interface by seating the 25-pin SUB-D field cable harness firmly onto the front-facing male socket of the module housing. Fasten the integrated retaining screws on the sides of the SUB-D cable shell to maintain electrical continuity during localized vibration occurrences.

Route all analog input lines through independent, grounded wire ducts to minimize external electromagnetic coupling. You must connect the outer overall shield of the instrument cables directly to the main control panel copper ground bus using low-impedance grounding clamps.

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