Seneca Z-4ai User manual

Page 1

MI002570

SENECA s.r.l.

Via Germania, 34 –35127 –Z.I. CAMIN –PADOVA –ITALY

Via Svizzera, 17 –35127 –Z.I. CAMIN –PADOVA –ITALY

Tel. +39.049.8705355 –8705359 Fax. +39.049.8706287

Web site: www.seneca.it

Technical assistance: [email protected] (IT), support@seneca.it (Other)

Commercial reference: commerciale@seneca.it (IT), sales@seneca.it (Other)

This document is property of SENECA srl. Duplication and reproduction of its are forbidden (though partial), if not

authorized. Contents of present documentation refers to products and technologies described in it. Though we strive for

reach perfection continually, all technical data contained in this document may be modified or added due to technical and

commercial needs; it’s impossible eliminate mismatches and discordances completely. Contents of present

documentation is anyhow subjected to periodical revision. If you have any questions don’t hesitate to contact our

structure or to write us to e-mail addresses as above mentioned.

USER MANUAL

Z-4AI

USER MANUAL –Z-4AI

Seneca Z-PC Line module: Z-4AI

The Z-4AI module acquires up to 4 single-ended input signals (voltage or current type) and it

converts them to a digital format (normalized measure).

General characteristics

It is possible to choose if each input is voltage or current type

It is possible to enable/disable each input

It is possible to change: the electrical start/end scale between ± 10 V, ± 20 mA, the

normalized start/end scale between ± 32000

Configuration of the module (node) address and baud-rate by Dip-Switches

It is possible to add/remove the module to/from RS485-bus without disconnecting the

communication or power supply

It is possible to switch automatically RS485 to RS232 or vice versa

Features

INPUT

Number

Resolution

16 bits (15+1 sign). If Electrical End-Scale (E.E.S.)<2V,

resolution=60µV; se 2V<E.E.S.<10V, resolution=300µV

Sampling time

Configurable between: 120 ms or 60 ms

Accuracy

Initial: 0.1% of E.E.S.. If E.E.S.<2V, accuracy=2mV; if

2V<E.E.S.<10V, accuracy=10mV

Linearity: 0.03% of E.E.S. (see initial accuracy)

Zero: 0.05% of E.E.S. (see initial accuracy)

Thermal stability: < 100 ppm/°K

EMI: < 1%

Protection

± 30Vdc and 25mA

Voltage-type IN

Bipolar with E.S.S./E.E.S.(Electrical Start/End Scale) configurable

between: ± 10Vdc. Input impedance: > 100 k

Current-type IN

Bipolar with E.S.S./E.E.S. configurable between: ±20mA.Internal

shunt:50. To enable these shunts, use the «Analog inputs» Dip-

Switches

Internal supply Vaux

The #7 screw terminals: power 13V to max90mA

CONNECTIONS

RS485 interface

IDC10 connector for DIN 46277 rail (back-side panel) or (alternative)

the screw terminals: 4(GND), 5(B), 6(A)

RS232 interface

Jack stereo 3.5mm connector: plugs into COM port

1500 Vac ISOLATIONS

Between: power supply, ModBUS RS485, analog input

USER MANUAL –Z-4AI

POWER SUPPLY

Supply voltage

10 –40 Vdc or 19 –28 Vac ( 50Hz - 60Hz)

Power

consumption

Min: 0.5W; Max: 2W (to power 4 current loop)

The power supply transformer necessary to supply the module must comply with EN60742

(Isolated transformers and safety transformers requirements). To protect the power supply, it is

recommended to install a fuse.

Input connections

It is possible to connect two types of sensors to the Z-4AI module:

passive sensors, indicated with “S” label (these sensors have to be supplied: by a module

external voltage Vext or by the module internal voltage Vaux);

active sensors, indicated with “voltage generator” or “current generator” label (these

sensors have already been supplied).

In the following figure are shown five possible sensor connections.

USER MANUAL –Z-4AI

Acquired

signal

Up to

Connection

modality

Sensors

power

supply

Voltage or

current type

4 passive sensors

3-wire

Vaux (*)

Voltage type

4 sensors as voltage generator

2-wire

Current type

4 sensors as current generator

2-wire

Current-active

type

4 passive sensors

2-wire

Vaux (*)

Current-

passive type

4 passive sensors

2-wire

Vext

(connect “-”

to GND)

(*) A and D connections are possible only if the absorbed currents sum from all

sensors: <90mA.

Dip-switches table

In the following tables: box without circle means Dip-Switch=0 (OFF state); box with

circle means Dip-Switch=1 (ON state).

USER MANUAL –Z-4AI

RS485 Register table

BAUD-RATE (Dip-Switches: DIP-SWITCH STATUS)

Meaning

Baud-rate=9600 Baud

Baud-rate=19200 Baud

Baud-rate=38400 Baud

Baud-rate=57600 Baud

ADDRESS (Dip-Switches: DIP-SWITCH STATUS)

Meaning

Address and Baud-Rate are acquired from memory(EEPROM)

Address=1

Address=2

Address=3

Address=4

……………………

Address=63

RS485 TERMINATOR (Dip-Switches: DIP-SWITCH STATUS)

Meaning

RS485 terminator disabled

RS485 terminator enabled

INPUT TYPE (Dip-Switches: ANALOG INPUTS)

Meaning

IN 1=voltage

IN 1=current

IN 2=voltage

IN 2=current

IN 3=voltage

IN 3=current

IN 4=voltage

IN 4=current

Name

Range

Interpretation of

R/W

Default

Address

MachineID

MSB, LSB

40001

Id_Code (Module ID)

0x07

Bit [15:8]

Ext_Rev (Module version)

Bit [7:0]

FWREV

Word

40035

Firmware Code

Status

Bit

R/W

40016

Input 4 underflow: 0=there isn’t; 1=there is

Bit 15

Input 4 overflow: 0=there isn’t; 1=there is

Bit 14

Input 3 underflow: 0=there isn’t; 1=there is

Bit 13

Input 3 overflow: 0=there isn’t; 1=there is

Bit 12

Input 2 underflow: 0=there isn’t; 1=there is

Bit 11

Input 2 overflow: 0=there isn’t; 1=there is

Bit 10

USER MANUAL –Z-4AI

Input 1 underflow: 0=there isn’t; 1=there is

Bit 9

Input 1 overflow: 0=there isn’t; 1=there is

Bit 8

Save configuration in memory (EEPROM): 0=deactivated;

1=activated

Bit 7

These bits aren’t used

Bit [6:2]

Reset of filter: 0=deactivated; 1=activated

Bit 1

Reset of module: 0=deactivated; 1=activated

Bit 0

Errors

Bit

40036

These bits aren’t used

Bit[15:10]

Setting error (in memory): 0=there isn’t; 1=there is

Bit 9

Calibration error (in memory): 0=there isn’t;1=there is

Bit 8

These bits aren’t used

Bit [7:1]

ADC error: 0=there isn’t; 1=there is

Bit 0

Eprflag

MSB, LSB

R/W

40003

These bits aren’t used

Bit [15:5]

Parity for RS485: 0=even parity; 1=odd parity

Bit 4

Parity for RS485: 0=there isn’t; 1=there is

Bit 3

Delay for RS485 (delay of communication response:

pauses between the end of Rx message and the start of

Tx message): 0=there isn’t; 1=there is

Bit 2

Sampling time: 0=120 ms; 1=60 ms

Bit 1

Compatibility with: 0=Z-4AI-0; 1=Z-4AI-1

Bit 0

Baudrate

Address

MSB, LSB

R/W

40002

Baud-rate for RS485 (baud-rate of module/node if

parameters are configurated by memory modality):

0=4800; 1=9600; 2=19200; 3=38400; 4=57600;

5=115200; 6=1200; 7=2400

38400

Bit [15:8]

Address for RS485(address of module if parameters are

configurated by memory modality):from 0x01=1 to

0xFF=255

Bit [7:0]

INType

Bit

R/W

40025

These bits aren’t used

Bit [15:4]

Input 4-type: 0=voltage; 1=current

Bit 3

Input 3-type: 0=voltage; 1=current

Bit 2

Input 2-type: 0=voltage; 1=current

Bit 1

Input 1-type: 0=voltage; 1=current

Bit 0

INPUT 1

IN 1

Between: IN 1-NSS, IN 1-

NES (if bit 40003.0=0);

unchangeable between:

0,10000 (if bit40003.0=1)

Word

40017

Normalized measure of input 1

IN1-FILTER

Between: 0, 6

Word

R/W

40004

Filter applied to input 1 signal: 0=deactivated; 1=filtering

min-value; 6=filtering max-value

IN 1-ESS

±10000 [mV] (if voltage),

±20000 [µA] (if current)

Word

R/W

40012

Electrical Start Scale (E.S.S.) of input 1 [mV or µA]

0 [mV]

IN 1-EES

±10000 [mV] (if voltage),

±20000 [µA] (if current)

Word

R/W

40008

Electrical End Scale (E.E.S.) of input 1 [mV or µA]

10000

[mV]

IN 1-NSS

±32000

Word

R/W

40030

Normalized Start Scale (N.S.S.) of input 1

IN 1-NES

±32000

Word

R/W

40026

Normalized End Scale (N.E.S.) of input 1

10000

USER MANUAL –Z-4AI

INPUT 2

IN 2

Between: IN 2-NSS, IN 2-

NES (if bit 40003.0=0);

unchangeable between:

0,10000 (if bit40003.0=1)

Word

40018

Normalized measure of input 2

IN2-FILTER

Between: 0, 6

Word

R/W

40005

Filter applied to input 2 signal: 0=deactivated; 1=filtering

min-value; 6=filtering max-value

IN 2-ESS

±10000 [mV] (if voltage),

±20000 [µA] (if current)

Word

R/W

40013

Electrical Start Scale (E.S.S.) of input 2 [mV or µA]

0 [mV]

IN 2-EES

±10000 [mV] (if voltage),

±20000 [µA] (if current)

Word

R/W

40009

Electrical End Scale (E.E.S.) of input 2 [mV or µA]

10000

[mV]

IN 2-NSS

±32000

Word

R/W

40031

Normalized Start Scale (N.S.S.) of input 2

IN 2-NES

±32000

Word

R/W

40027

Normalized End Scale (N.E.S.) of input 2

10000

INPUT 3

IN 3

Between: IN 3-NSS, IN 3-

NES (if bit 40003.0=0);

unchangeable between:

0,10000 (if bit40003.0=1)

Word

40019

Normalized measure of input 3

IN3-FILTER

Between: 0, 6

Word

R/W

40006

Filter applied to input 3 signal: 0=deactivated; 1=filtering

min-value; 6=filtering max-value

IN 3-ESS

±10000 [mV] (if voltage),

±20000 [µA] (if current)

Word

R/W

40014

Electrical Start Scale (E.S.S.) of input 3 [mV or µA]

0 [mV]

IN 3-EES

±10000 [mV] (if voltage),

±20000 [µA] (if current)

Word

R/W

40010

Electrical End Scale (E.E.S.) of input 3 [mV or µA]

10000

[mV]

IN 3-NSS

±32000

Word

R/W

40032

Normalized Start Scale (N.S.S.) of input 3

IN 3-NES

±32000

Word

R/W

40028

Normalized End Scale (N.E.S.) of input 3

10000

INPUT 4

IN 4

Between: IN 4-NSS, IN 4-

NES (if bit 40003.0=0);

unchangeable between:

0,10000 (if bit40003.0=1)

Word

40020

Normalized measure of input 4

IN4-FILTER

Between: 0, 6

Word

R/W

40007

Filter applied to input 4 signal: 0=deactivated; 1=filtering

min-value; 6=filtering max-value

IN 4-ESS

±10000 [mV] (if voltage),

±20000 [µA] (if current)

Word

R/W

40015

Electrical Start Scale (E.S.S.) of input 4 [mV or µA]

0 [mV]

IN 4-EES

±10000 [mV] (if voltage),

±20000 [µA] (if current)

Word

R/W

40011

Electrical End Scale (E.E.S.) of input 4 [mV or µA]

10000

[mV]

IN 4-NSS

±32000

Word

R/W

40033

Normalized Start Scale (N.S.S.) of input 4

IN 4-NES

±32000

Word

R/W

40029

USER MANUAL –Z-4AI

LEDs for signalling

In the front-side panel there are 4 LEDs and their state refers to important operating conditions

of the module.

LED

LED status

Meaning

PWR

Constant light

The power is on

ERR

Blinking light

The module has at least one of the errors described in RS485

Registers table

Constant light

Verify if the bus connection is corrected

Blinking light

The module received a data packet

Blinking light

The module sent a data packet

Easy-SETUP

To configure the Seneca Z-PC Line modules, it is possible to use Easy-SETUP software,

Free-downloadable from the www.seneca.it; the configuration can be performed by RS232 or

RS485 bus communication.

Normalized End Scale (N.E.S.) of input 4

10000

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