Chapter 4: 952 qd overview, Quadrature output – AMETEK 952 BlueOx LDT User Manual

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4.1: Quadrature Output

A new method of interfacing magnetostrictive

transducers offers customers an interface as

common as analog with the speed and accuracy of

pulsed type signaling. The GEMCO 952 QD Linear

Transducer provides quadrature output directly from

the transducer to the controller (see drawing below).

The output from the transducer can be wired directly

to any incremental encoder input card, without

the need for a special converter module or PLC

interface card designed specifically for use with a

pulse output magnetostrictive transducer.

The quadrature output provides absolute position

data in engineering units. This means that the

need for the calibration constant (wire speed)

programming has been removed, thereby

eliminating the possibility of having an improperly

calibrated system. The output signal wires are

driven by differential RS-422 line drivers, similar

to the drivers used in most magnetostrictive pulse

type transducers, providing a high degree of noise

immunity.

A unique feature of this transducer is a Burst mode

of operation. An input on the transducer triggers

a data transfer of all the incremental position data

relative to the transducer’s absolute zero position.

This can be used to achieve absolute position

updates when power is restored to the system or

anytime an update is needed to re-zero or home

the machine. Additionally, another input to the

transducer can be used to establish a Zero position

for the transducer.

4.2: Signal Connection

Application Note

Overview

This application note will attempt to clarify the type

of signals coming out of and going into the 952QD

quadrature probe.

Inputs

The quadrature probe has two inputs, the Zero and

Burst inputs. These inputs are single ended. That

is, the connection for each input consists of only

one wire, the corresponding signal wire. For these

(single ended) inputs, the signal is measured with

reference to the power supply ground, which is also

sometimes referred to as common.

The quadrature probe is available with either +24

VDC level signal thresholds or TTL level thresholds.

The signal voltage level required to activate the

input for the +24 VDC level signals is proportional

to the power supply voltage that the customer is

supplying to the probe. This level is approximately

41% of the power supply voltage. For example; if

the power supply voltage powering the probe is

exactly +24 VDC, the threshold voltage would be

about 9.84 volts.

The TTL level threshold signals are activated when

these inputs exceed the typical TTL level threshold,

which is 2.0 VDC.

Additionally, for the +24 VDC level signals, the

customer can specify either a sourcing or sinking

type of input. A sourcing input type is pulled high

internal to the probe. To activate a sourcing input,

the customer must pull the signal lower than the

threshold voltage to activate the input. A sourcing

input is usually driven by a sinking output or a

switch connected to ground. A sinking input type is

pulled low internal to the probe. To activate a sinking

input, the customer must pull the signal higher than

the threshold voltage to activate the input. A sinking

input is usually driven by a sourcing output or a

switch connected to the power supply.

Chapter 4: 952 QD Overview