AMIS30585GEVK ON Semiconductor, AMIS30585GEVK Datasheet - Page 2

AMIS30585GEVK

Manufacturer Part Number

AMIS30585GEVK

Description

Power Management IC Development Tools EVK PLC MODEM 1200 BAUD

Manufacturer

ON Semiconductor

Type

Supervisory Circuitsr

Datasheet

1.AMIS30585GEVK.pdf (17 pages)

Specifications of AMIS30585GEVK

Rohs

yes

Product

Evaluation Kits

Tool Is For Evaluation Of

AMIS-30585

Input Voltage

3 V to 3.6 V

Output Voltage

0.3 V

Current page: 2 of 17
Download datasheet (313Kb)

Description

power line carrier (PLC) communication in compliance to

the European standard IEC 1334−5−1 and IEC 1334−4−32.

combines some of the advantages of a classical spread

spectrum system (e.g. immunity against narrow band

interferers) with the advantages of the classical FSK system

(low complexity). The transmitter assigns the space

frequency f

1”. The difference between S−FSK and the classical FSK

lies in the fact that f

other, making their transmission quality independent from

each other (the strengths of the small interferences and the

signal attenuation are both independent at the two

frequencies). The frequency pairs supported by the

AMIS−30585 are in the range of 9−95 kHz with a typical

separation of 10 kHz.

signal is performed at the front−end of the circuit. The

processing of the signal and the handling of the protocol is

digital. At the back−end side, the interface to the application

is done through a serial interface. The digital processing of

the signal is partitioned between hardwired blocks and a

microprocessor block. The micro−processor is controlled by

firmware. Where timing is most critical, the functions are

implemented with dedicated hardware. For the functions

ORDERING INFORMATION

AMIS30585AGA

The AMIS−30585 is a single chip modem dedicated to

S−FSK is a modulation and demodulation technique that

The circuit is mostly digital. The conversion of the analog

Product Name

to “data 0” and the mark frequency f

and f

are now placed far from each

Ordering Code (Tubes)

Figure 1. S−FSK Modem AMIS−30585 Block Diagram

0C585−002−XTD

to “data

http://onsemi.com

where the timing is less critical, typically the higher level

functions, the circuit makes use of the ARM 7TDMI

microprocessor core.

handles the communication protocol. The communication

protocol, in this application, contains the MAC = Medium

Access Control Layer. The program running on the

microprocessor is stored into an on−board ROM. The

working data necessary for the processing is stored in an

internal RAM. For the back−end side, the link to the

application hardware, a SCI is provided. The SCI is an easy

to use serial interface, which allows communication

between an external processor used for the application

software and the AMIS−30585 modem. The SCI works on

two wires: TXD and RXD. Baud rate is programmed by

setting 2 bits (BR0, BR1).

circuit, the AMIS−30585

architectural split. Thanks to this, the user has the benefit of

a higher level interface of the link to the PLC medium.

Compared to an interface at the physical level, the

AMIS−30585 allows faster development of applications.

The user just needs to send the raw data to the AMIS−30585

and no longer has to take care of the protocol detail of the

transmission over the specific medium. This last part

represents usually 50 percent of the software development

costs.

The processor runs DSP algorithms and, at the same time,

Due to the handling of the low protocol layers in the

PLCC 28 452 G

Package

provides

Temperature Range

−25°C to 70°C

innovative

AMIS30585GEVK ON Semiconductor, AMIS30585GEVK Datasheet - Page 2

AMIS30585GEVK

Specifications of AMIS30585GEVK

Related parts for AMIS30585GEVK