19699-002-XTP ON Semiconductor, 19699-002-XTP Datasheet - Page 11

19699-002-XTP

Manufacturer Part Number

19699-002-XTP

Description

Manufacturer

ON Semiconductor

Datasheet

1.19699-002-XTP.pdf (22 pages)

Specifications of 19699-002-XTP

Number Of Transmitters

Power Supply Requirement

Dual

Package Type

LQFP

Operating Temperature Classification

Industrial

Mounting

Surface Mount

Pin Count

Operating Temperature (max)

85C

Operating Temperature (min)

-40C

Lead Free Status / RoHS Status

Compliant

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AMIS-49200

4.0 Theory of Operation

4.1 Overview

The AMIS-49200 incorporates two different power supply circuits.

configuration, the shunt regulator is set for 5V and the series regulator is set for 3V. Users can modify either power supply by adding

external components. The AMIS-49200 Fieldbus can also monitor these power supply voltages and generate power-fail signals if they

fall below a specified value. Please refer to the AMIS-49200 Fieldbus MAU Reference Design Application Note for ways to adjust the

shunt and series voltage regulators.

The AMIS-49200 Fieldbus MAU transmits a Manchester-encoded signal provided from a standard MDS-MAU interface. The output

driver makes it possible to design various signal circuits, which depend on the power requirements of your device. The slew rate of the

signal can be controlled to minimize unnecessary radiation as specified in IEC/ISA standards.

The AMIS-49200 Fieldbus MAU has a built-in band pass filter which makes it easy to design your own receiver. The receive block

operates on a Manchester-encoded signal. It decodes the signal and verifies proper amplitude with a zero-cross and carrier detect

circuit, respectively. Detected signals are then passed on to a controller with the standard MDS-MAU interface.

4.2 Power Supply Block

The power supply block contains four sub-blocks:

4.2.1. Shunt Regulator

The shunt regulator controls its sink current to the SHUNT pin so that the voltage applied to the SHSETIN pin is equal to V

input is divided by an internal network to provide a voltage equal to Vref at the SHSET pin. If SHSET and SHSETIN pins are tied

together, and V

shunt regulator provides 5V power to itself and external circuits. A capacitor of 5μF or larger capacity is necessary to stabilize this

regulator. Figure 13 shows C10 (22μF) connected to Pin 8 to accomplish stabilization.

It is possible to increase the V

SHSETIN pin. In this case, SHSET pin must be kept open. The output voltage is determined by the following equation:

A shunt regulator - for establishing a supply voltage of V

A series regulator - for establishing a supply voltage of V

Two low voltage detectors - for monitoring the two supply voltages

A bandgap voltage reference - which is used internally for generating a bias level for AC signals

and SHUNT pins are connected to a power source of high impedance (e.g., current mirror circuit of signal driver), the

SHSET

( Internal Configuration )

Rsh

3 . 25 Rsh

VREF

Shunt Regulator

SHSETIN

A 6

voltage up to 6.2V by dividing V

16 Meg

50 pF

Cfb

SGND

25 mA

( Max )

Rev. 5 | Page 11 of 22 | www.onsemi.com

SHUNT

VCC

System

Figure 4: Shunt Regulator

VCC

= V

REF

(typ. = 5V) used by the analog circuitry

(typ. = 3V) used for digital circuitry

× (1 + R

with an external network to supply the appropriate voltage to

Both derive their power from the bus.

N/C

/ R

SHSET

(External Configuration )

)

3.25Rsh

Rsh

VREF

Shunt Regulator

SHSETIN

16Meg

50 pF

Cfb

SGND

25 mA

( Max )

SHUNT

VCC

System

VCC

Using the internal

REF

. The V

19699-002-XTP ON Semiconductor, 19699-002-XTP Datasheet - Page 11

19699-002-XTP

Specifications of 19699-002-XTP

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