XA-G49 Datasheet, PDF(12/42 Page) NXP Semiconductors – XA 16-bit microcontroller family 64K FLASH/2K RAM, watchdog, 2 UARTs

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XA-G49 Datasheet, PDF (12/42 Pages) NXP Semiconductors – XA 16-bit microcontroller family 64K FLASH/2K RAM, watchdog, 2 UARTs

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Philips Semiconductors

XA 16-bit microcontroller family

64K Flash/2K RAM, watchdog, 2 UARTs

Preliminary specification

XA-G49

VCC

VPP

VDD SUPPLY OR +12V Â±5%

FOR USE WITH WINISP

RST

VDD

TxD

XTAL2

RxD

XTAL1

VSS

5V Â±5%

TxD

RxD

VSS

RS-232

TRANSCEIVER

MC145406, MAX232,

OR EQUIVALENT

FEMALE

DB-9

Figure 4. In-System Programming with a Minimum of Pins

SU01072

In-System Programming (ISP)

In-System Programming (ISP) is performed without removing the

microcontroller from the system. The In-System Programming (ISP)

facility consists of a series of internal hardware resources coupled

with internal firmware to facilitate remote programming of the

XA-G49 through the serial port. This firmware is provided by Philips

and embedded within each XA-G49 device.

The Philips In-System Programming (ISP) facility has made in-circuit

programming in an embedded application possible with a minimum

of additional expense in components and circuit board area.

The ISP function uses five pins: TxD, RxD, VSS, VDD, and VPP (see

Figure 4). Only a small connector needs to be available to interface

your application to an external circuit in order to use this feature.

The VPP supply should be adequately decoupled and VPP not

allowed to exceed datasheet limits.

Table 1. ISP typical programming currents

@ 25Â°C, 22 MHz, 5 VDD

VCC

VPP

IPP

IDD

5.0 V

60 ÂµA

25 mA

ISP increases IDD by less than 1mA.

ISP software is available on the Philips web site

1. With your browser, open this page:

www.semiconductors.com

2. Enter winzip.zip into the Search box at the top of the Philips

web page.

3. Click on Microcontrollers Software support.

4. Download disk1.zip and disk2.zip.

5. Create a directory on your hard drive named WINISP.

6. Unzip the two disk files into this new directory WINISP.

Using In-System Programming (ISP)

When ISP mode is entered, the default loader first disables the

watchdog timer to prevent a watchdog reset from occurring during

programming.

The ISP feature allows for a wide range of baud rates to be used in

the application, independent of the oscillator frequency. It is also

adaptable to a wide range of oscillator frequencies. This is

accomplished by measuring the bit-time of a single bit in a received

character. This information is then used to program the baud rate in

terms of timer counts based on the oscillator frequency. The ISP

feature requires that an initial character (a lowercase f) be sent to

the XA-G49 to establish the baud rate. The ISP firmware provides

auto-echo of received characters.

Once baud rate initialization has been performed, the ISP firmware

will only accept specific Intel Hex-type records. Intel Hex records

consist of ASCII characters used to represent hexadecimal values

and are summarized below:

:NNAAAARRDD..DDCC<crlf>

In the Intel Hex record, the âNNâ represents the number of data

bytes in the record. The XA-G49 will accept up to 16 (10H) data

bytes. The âAAAAâ string represents the address of the first byte in

the record. If there are zero bytes in the record, this field is often set

to 0000. The âRRâ string indicates the record type. A record type of

â00â is a data record. A record type of â01â indicates the end-of-file

mark. In this application, additional record types will be added to

indicate either commands or data for the ISP facility. The maximum

number of data bytes in a record is limited to 16 (decimal). ISP

commands are summarized in Table 2.

As a record is received by the XA-G49, the information in the record

is stored internally and a checksum calculation is performed. The

operation indicated by the record type is not performed until the

entire record has been received. Should an error occur in the

checksum, the XA-G49 will send an âXâ out the serial port indicating

a checksum error. If the checksum calculation is found to match the

checksum in the record, then the command will be executed. In

most cases, successful reception of the record will be indicated by

transmitting a â.â character out the serial port (displaying the

contents of the internal program memory is an exception).

In the case of a Data Record (record type 00), an additional check is

made. A â.â character will NOT be sent unless the record checksum

matched the calculated checksum and all of the bytes in the record

were successfully programmed. For a data record, an âXâ indicates

that the checksum failed to match, and an âRâ character indicates

that one of the bytes did not properly program.

The ISP facility was designed so that specific crystal frequencies

were not required in order to generate baud rates or time the

programming pulses.

2000 Apr 03

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