bf1systems F1MA1 User Manual

Wireless Mini Analyser User Manual

Wireless Mini Analyser User Manual V1_06

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bf1systems

Tyre Pressure Monitoring System – Mini Analyser

User Manual

F1-100-1451-003 – 433MHz TPMS Mini Analyser, Wireless

Version – 1.06

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Date

Modifications

Author

Version

Modified

Sheets

Approved

By

Date

Signed

03/07/2009

Document Creation

MRC

1_01

All

GMS

31/07/09

GMS

05/08/2009

Serial port configuration
added
Detailed description of
‘last’ command sequence
added

‘gencfg’ command

description added
Setup menu details
added
MAC_Addr update
command revised

MRC

1_02

8, 9, 10,

11, 12,
13, 15

JRS

06/08/2009

JRS

07/08/2009

Bootloader section covers
change of Mini Analyser
baudrate prior to
bootloading

MRC

1_03

16

JRS

07/08/2009

JRS

27/08/2009

‘last’ response updated.

Sensor data lines noe
begin with position
numbers 0:, 1:, 2:, 3: not
1:, 2:, 3:, 4:

MRC

1_04 9 GMS

27/08/09

GMS

26/10/2009

Front sheet added
Addition of battery status
splash screen to display,
sections 2.3.1 & 3.2.3

MRC

1_05

1,7,11

GMS

3/11/09

GMS

18/05/2015

Logo changed to
bf1systems on front page.
Safety advice added for
each device.
Inventory table added
Pictures of analyser & PC
module added
Battery charger section
added.
USB mains power supply
section added.
Mini analyser battery
section added.
Attaching the antenna
section added.
Charger mw6288gs spec
page added.
USB power supply spec
page added.
FCC ID & IC comments
added to table

AE

1_06

1

4,5,6

7

12,13

8

9
11
12
31
31

28&30

AE

26/05/15

GU

Wireless Mini Analyser User Manual

1 Modifications

Revision History

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1 Modifications .......................................................................................................................................................................... 2

2 Safety Advice ......................................................................................................................................................................... 4

2.1 MW6288 9V mains charger .......................................................................................................................................... 4

2.2 EMSA 5W USB Series Power Supply ......................................................................................................................... 5

2.3 Wireless mini analyser .................................................................................................................................................. 6

3 Inventory ................................................................................................................................................................................ 7

4 System Overview .................................................................................................................................................................. 7

5 Components .......................................................................................................................................................................... 7

5.1 Battery Charger ............................................................................................................................................................. 8

5.2 USB mains power supply .............................................................................................................................................. 9

5.3 Wireless Mini Analyser ............................................................................................................................................... 10

5.4 Mini analyser battery .................................................................................................................................................. 11

5.5 Attaching the Antenna ................................................................................................................................................ 12

5.6 Wireless Modules ....................................................................................................................................................... 13

5.6.1 Wireless Module ................................................................................................................................................. 13

5.6.2 Wireless PC Module ........................................................................................................................................... 14

5.6.3 Status Information .............................................................................................................................................. 15

5.6.3.1 Power LED ...................................................................................................................................................... 15

5.6.3.2 Link LED .......................................................................................................................................................... 15

5.7 Analyser Overview ..................................................................................................................................................... 15

5.7.1 Power Button ...................................................................................................................................................... 15

5.7.2 Position Assignment Keys ................................................................................................................................. 15

5.8 Connectivity Set Up .................................................................................................................................................... 15

6 Operation ............................................................................................................................................................................ 16

6.1 Wheel Assignment ..................................................................................................................................................... 16

6.2 Data Transfer .............................................................................................................................................................. 18

6.2.1 Command Transmission .................................................................................................................................... 18

6.2.2 ‘last’ Command ................................................................................................................................................... 18

6.2.3 ‘setclear’ Command............................................................................................................................................ 19

6.2.4 ‘gencfg’ Command ............................................................................................................................................. 20

6.3 Setup Menu ................................................................................................................................................................ 20

6.3.1 Power Settings.................................................................................................................................................... 21

6.3.2 Beep / LED 1 ...................................................................................................................................................... 21

6.3.3 Beep / LED 2 ...................................................................................................................................................... 22

6.3.4 System Info ......................................................................................................................................................... 23

6.3.5 Contrast ............................................................................................................................................................... 23

Channel Config ................................................................................................................................................................... 24

7 cParameters ....................................................................................................................................................................... 24

7.1 Wireless Analyser Module ......................................................................................................................................... 25

7.2 Wireless PC Module ................................................................................................................................................... 25

7.3 Arguments .................................................................................................................................................................. 25

7.3.1 PAN_ID ............................................................................................................................................................... 25

7.3.2 ED_MAC_Addr [n] / C_MAC_Addr 1 ................................................................................................................ 25

7.3.3 Link_timeout ....................................................................................................................................................... 26

8 Bootloader .......................................................................................................................................................................... 26

8.1 Mini Analyser Firmware Update ................................................................................................................................ 26

9 Wireless Analyser Module Specifications ......................................................................................................................... 28

9.1 General ....................................................................................................................................................................... 28

9.2 Communications ......................................................................................................................................................... 28

9.3 Environmental ............................................................................................................................................................. 28

Wireless PC Analyser Module Specifications ........................................................................................................................... 30

9.4 General ....................................................................................................................................................................... 30

9.5 Communications ......................................................................................................................................................... 30

9.6 Environmental ............................................................................................................................................................. 31

10 Charger MW 9V MW6288GS ........................................................................................................................................ 32

10.1 Specifications .............................................................................................................................................................. 32

11 EMSA050100 USB power supply ................................................................................................................................. 32

11.1 Specifications .............................................................................................................................................................. 32

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2 Safety Advice

WARNING!

Risk of electric shock

 This product contains no serviceable parts and must not be opened.
 Do not charge any other type or chemistry of rechargeable battery

cells other than Alkaline, NiMH and NiCad.

 This product must not be used outside.
 Do not expose the charger to rain or moisture to avoid the risk of fire

or electrical shock.

 Always place the battery with the positive tip facing the top of the

charger-Incorrect polarity may cause a fire or explosion.

CAUTION!

 Do not short the charging terminals
 Do not operate the charger if it appears damaged in any way

2.1 MW6288 9V mains charger

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WARNING!

Risk of electric shock

 This product contains no serviceable parts and must not be opened.
 This product must not be used outside.
 Do not expose the power supply to rain or moisture to avoid the

risk of fire or electrical shock.

CAUTION!

 Do not use the power supply if it appears damaged in any way

 Avoid extreme conditions such as extreme heat, cold, humidity or

direct exposure to the sun.

2.2 EMSA 5W USB Series Power Supply

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CAUTION!

 Do not use the wireless mini analyser if there is any damage to the

battery terminal or wire.

 Only use the power cables that have been supplied with the

wireless mini analyser.

NOTE

 Remove battery from the device when not used for a long period of

time.

2.3 Wireless mini analyser

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Description

Qty

Wireless Mini Analyser

1

9V Battery Snap to 2.5mm Jack Charging Cable

1

280 mAh Ni-MH PP3 Rechargeable Battery

1

Detachable Antenna

1

Carry Case

1

Carrying Strap

1

Wireless Analyser Module

1

Wireless PC Module

1

Retractable USB cable

2

EMSA 5W USB Power Supply with 4 adaptors

1

Intercept MW6288GS Battery Charger

1

CD loaded with manual and software

1

3 Inventory

The system will arrive with the following items:

4 System Overview

The Wireless Mini Analyser tool is designed for use on a vehicle production line as an emergency aid when the
standard wheel assignment process has failed. Under these circumstances the operator uses the Wireless Mini
Analyser to pass wheel sensor data to the production database.

5 Components

The Wireless Mini Analyser consists of a modified version of the standard bf1systems Mini Analyser hardware, but
using bespoke software.

The Wireless Analyser Module is a 2.4GHz-band radio modem that connects to the RS232 port located on the base
of Mini Analyser.

The Wireless PC Module is a 2.4GHz-band radio modem that connects to a PC serial port.
A rechargeable NiMH cell is supplied with the Wireless Mini Analyser which is charged via a jack on the side of the

analyser using the supplied charger.

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The battery can also be charged via the supplied

charging cable.

5.1 Battery Charger

A 230V AC - 9/9.8 V DC Battery Charger is supplied with the Wireless Mini Analyser. The unit can charge 2
rechargeable 9V batteries and includes the following features: LED status display, micro controlling trickle charge
mode, a discharge function, and delta V detection

Intended use:

This product is intended for use only in dry interior rooms.

For use only with rechargeable Ni-Cd and Ni-MH batteries

Failure to follow safety instructions may cause fatal accidents, injuries, and damages to persons and property.

Connecting and operating

1. Connect either one or two PP3 Ni-Cd or Ni-MH batteries into the charging points. Ensure batteries to be
charged are of the same type. Do not mix battery types

2. Plug the Charger into a 230 V AC mains socket, and switch on

3. Select the operation mode with the mode switch: DISHARGE / CHARGE

Note: Discharging is only available at the right charging point.

Display: Red LEDs (CHARGE/READY) Illuminated

Batteries are charging.
Green LEDs (CHARGING/READY) illuminated.

Batteries are fully charged.
Yellow LED (DISCHARGE) illuminated

Batteries are discharging.

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1

2

5.2 USB mains power supply

The USB mains power supply is supplied with the purpose of supplying power directly to the wireless modules that
are used with the mini analyser.

The power supply converts 230V AC mains voltage into 5V DC at 1.0A
The power supply should only be used in conjunction with the USB cables that have been supplied with the mini

analyser.
For all safety advice please refer to the safety advice page which can be found at the start of this document.
Once the correct pin adaptor has been selected, slot it in at around a 30-45° angle then press down until it is locked

into place as shown in the images below

The USB cable should be inserted into the socket before the supply is connected to mains. See image 1 below.

The USB cable can now be plugged into the wireless module unit via the micro USB socket. See image 2 above.
Once everything is connected the plug can be connected to mains and power can be switched on.
The pin adaptor can be removed by pulling the release down as shown in the image below.

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5.3 Wireless Mini Analyser

The Wireless Mini Analyser is fitted with a rechargeable battery in order to maximise the performance and versatility
of the device. A jack socket on the side of the unit allows it to be charged using the mains charger provided.

Pin 9 of the 9-way D-type fitted to the Wireless Mini Analyser has been wired to provide power for the Analyser
Module unit when in use.

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To return the battery compartment

lid, simply push down until the

release button clicks back into place

Correct battery installation.

Battery snap polarity

To remove the battery compartment lid
Press the release clip and lift away.

The battery and antenna can be found stored
within the battery compartment.

It is advised that the battery terminal cover is placed onto the battery during transit to avoid
shorting of terminals.

- +

PUSH

PRESS

LIFT

5.4 Mini Analyser battery

The Wireless Mini Analyser will arrive with a rechargeable battery and detachable antenna placed within the battery
compartment as can be seen in the above image. The battery is of the PP3 type and should always be replaced with
one of the same type. Failure to do so may affect the performance of the device.

The battery will have a plastic terminal cover or rubber grommet attached to it.
The terminal cover should always be placed on the battery when it is not being used.
The battery may contain charge but it is advised that the battery is placed into the battery charger supplied and left

until fully charged (Green LED illuminates).
Once the battery is fully charged and ready to be used, connect the battery to the battery snap ensuring the correct

polarity is observed.

Batteries should be disposed in accordance with local waste regulations. Do not incinerate.

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5.5 Attaching the Antenna

The wireless mini analyser is supplied with a detachable antenna which can be found and stored in the battery
compartment.

Attach the antenna simply screw it clockwise onto the antenna connector located on top of the mini analyser.
The antenna should only be finger tight – Do not use any tools as this will result in damage to the antenna or

connector.
It is advised that the antenna is removed and stored away in the battery compartment when not in use.

Attaching Detaching

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USB Connector
Programming /

Configuration switch

2.5mm charge socket
Red Power LED
Orange wireless link LED

5.6 Wireless Modules

5.6.1 Wireless Module

The Wireless Module is fitted with a 9-way D-type, which connects directly to the 9-way D-type fitted to the bottom of
the Mini Analyser. When connected in this way the Wireless Module is powered directly from the Mini Analyser.

In order to make changes to the internal settings of the device the unit must be connected to the serial port of a PC
using a standard null modem serial cable (not supplied). When changing the internal settings the Wireless module
unit must be powered via the micro-USB connector on the side of the module. NOTE: The USB connector is solely
for the provision of power to the unit; no USB communication is supported.

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USB Connector

Programming / Configuration switch

Orange wireless link LED

Red Power LED

5.6.2 Wireless PC Module

The Wireless PC Module is fitted with a 9-way D-type, which can be connected directly to the 9-way D-type serial
connector on a PC. A straight through serial extension lead should be used to remotely connect the Wireless PC
module.

The Wireless PC Module settings may be updated with the unit connected to the PC serial port.
The Wireless PC Module is powered via the micro-USB connector on the side of the unit. NOTE: The USB

connector is solely for the provision of power to the unit; no USB communication is supported.

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20 Character x 4 Line
LCD Display

RS232 Interface

(9-way D)

Antenna Connector

Position Assignment
Keys

Power Button

Tx / Rx LED

Charge Connector

5.6.3 Status Information

Both the Wireless PC Module and Wireless Analyser Module have 2 LEDs that are used for indicating the status to
the user. The red LED pertains to power while the orange LED relates to wireless link status.

5.6.3.1 Power LED

The power LED has three modes of operation:

Continuously on : Power on, unit initialising
Blink : Power on, initialisation completed ok, operating normally (0.3s on – 2.7s off)
Off : No power

5.6.3.2 Link LED

The link LED has four modes of operation:
Fast flash : Initialising link, searching for device to pair with (0.5s on – 0.5s off)
Double blink : Link established and operating correctly (0.2s on – 0.2s off – 0.2s on – 1.4s off)
Blink : cParameter edit mode, no wireless activity (0.3s on – 1.7s off)

5.7 Analyser Overview

5.7.1 Power Button

The Power Button is used to power on and off the Wireless Mini Analyser unit. With the unit powered off, pressing
and holding the Power Button will cause the unit to turn on. Upon power on the unit will display a number of
information splash screens, before displaying the main Sensor Assignment screen. The Current battery status will
be shown as part of the power on sequence, so that the user can verify the unit is suitably charged prior to use.

The unit is powered off by pressing and holding the Power Button for longer than 2 seconds.

5.7.2 Position Assignment Keys

The position assignment keys provide the operator with the means to associate a wheel sensor with a given location
on the vehicle. For the Wireless Mini Analyser, the Position Assignment Keys are the only functional keys.

5.8 Connectivity Set Up

The Wireless Analyser set-up provides a point-to-point link between a single End Device (Wireless Mini Analyser)
and a single Co-ordinator (Wireless PC Module). In order that units may automatically connect at power on devices
contain details of the units to which they may connect. Each end device is configured with the MAC address of a
single co-ordinator node, whilst co-ordinator nodes contain a list of up to 8 allowable end devices.

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S e N s o r P o s i t i o n F L

L F T r i g g e r ! ! ! F A I L E D ! ! !

At power on the co-ordinator node (Wireless PC Module) enters pairing mode (fast flashing Link LED). In this mode
it listens for any programmed device that is in range.

When an end device node (Wireless Analyser Module) is powered on it also enters pairing mode (fast flashing Link
LED).

When a compatible co-ordinator node and end device node are operating in pairing mode are within range of
each other, a link will be established. When the devices pair the link status LED on both devices will change
from fast flashing to double blink to indicate this. Once established the link will remain valid until one or other
of the devices times out due to lack of data transfer activity on the radio link.

By default the co-ordinator node Link_timeout is 15s, whereas the end device Link_timeout is 10s. It is intentional
that the end device Link_timeout is shorter than that of the co-ordinator Link_timeout.

If the end device node fails for any reason, then the co-ordinator node will revert to pairing mode after its
Link_timeout expires. This will allow a new end device node that is in the co-ordinator’s allowed list to be accepted.

The link establishment strategy is fully fault tolerant, and will automatically handle power cycling of devices in any
order, and will automatically re-establish a link in the event of an end device failure. If the co-ordinator node is lost
through power failure, the link will automatically restart once power is re-applied.

6 Operation

Operation of the Wireless Mini Analyser falls into two parts, collection of the wheel sensor information using the Mini
Analyser itself, and gathering of the information stored in the Mini Analyser via the wireless link to the host PC.

6.1 Wheel Assignment

The purpose of the Wireless Mini Analyser is to provide a convenient method for the assignment of wheel sensors to
their appropriate location on the car, should the normal automated process fail for any reason.

In order to position a sensor the operator should LF trigger the sensor via one of the Position Assignment Keys on
the analyser [FL] [FR] [RL] [RR]. When the sensor responds, and the Mini Analyser receives the RF datagram the
data is automatically assigned it to the appropriate corner based on the Position Assignment Key used to trigger the
sensor. When a sensor is positioned successfully a splash screen is displayed, together with a beep and flashing of
the Tx/Rx LED.

If an RF datagram is not received within 500ms in response to the LF trigger, then the Mini Analyser will
automatically reattempt to trigger the sensor again after a further 500ms (i.e.: 1s between LF trigger attempts). The
Mini Analyser will make up to 5 retries to LF trigger the sensor. If no RF datagram has been received after the fifth
retry, a splash screen will be displayed, accompanied by a beep and flashing of the Tx/Rx LED.

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▲ F L : 2 0 1 3 8 1 5 5 6 9 ▲ ▲ F R : 0 ▲ ▲ R L : 0 ▲ ▲ R R : 0

▲

▲ F L : 2 0 1 3 8 1 5 5 6 9 ▲ ▲ F R : 2 0 1 3 8 6 3 3 2 4 ▲ ▲ R L : 0 ▲ ▲ R R : 0

▲

▲ F L : 2 0 1 3 8 1 5 5 6 9 ▲ ▲ F R : 2 0 1 3 8 6 3 3 2 4 ▲ ▲ R L : 2 0 1 3 7 6 9 2 0 5 ▲ ▲ R R : 0

▲

▲ F L : 2 0 1 3 8 1 5 5 6 9 ▲ ▲ F R : 2 0 1 3 8 6 3 3 2 4 ▲ ▲ R L : 2 0 1 3 7 6 9 2 0 5 ▲ ▲ R R : 2 0 1 3 7 3 3 7 6 0

▲

S e T E r r o r D u p l i C a t e S e r i a l F L R L

As each wheel is learned, the serial number of the sensor that has been assigned to the wheel will be shown on the
Mini Analyser display. Unassigned locations will display serial number ‘0’.

This process is repeated for each corner of the vehicle.

Should the set assignment fail, due to duplicating a serial number between locations, a splash screen is displayed,
together with a beep and flashing of the Tx/Rx LED. The operator need only relearn the corner in error to complete
the set.

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6.2 Data Transfer

Transfer of the data collected by the Wireless Mini Analyser is achieved via the wireless serial link provided by the
Wireless PC Module and Wireless Analyser Module. The wireless modules provide a transparent 19200-baud serial
link between the host PC and the Mini Analyser. When operating with the Wireless Modules the serial port should
be configured as follows:

Data Rate : 19200 baud
Data bits : 8
Parity : No

Stop bits : 1
Flow control : None

6.2.1 Command Transmission

Due to the single RF channel link between the host PC and the Wireless Mini Analyser, full-duplex serial
communication is not possible. The terminal interface within the Wireless Mini Analyser has been modified to
suppress the remote echo that is present in the standard firmware. As a result there is no requirement for the
terminal emulator, or other software, to wait for an echo character from the Wireless Mini Analyser.
If the Wireless Mini Analyser is used with a standard terminal program the entered characters will not be visible to
the user unless the terminal program is configured to provide a local echo. If remote echo suppression strategy is
not implemented then command transfers may fail due to clashes between transmitted and echoed characters on
the RF link.

6.2.2 ‘last’ Command

The current contents of the set buffer may be requested from the Mini Analyser at any time by use of the ‘last’
terminal command. In response to this command the Wireless Mini Analyser will transmit a fixed length data block
containing the collected data. As the Wireless Mini Analyser is generally intended for connection to a terminal
program, the data is transferred as ASCII characters.

The transferred data consists of 124 characters of header (2 lines of 62 characters), followed by 244 characters of
data (4 lines of 61 characters), regardless of sensor generation (G2 or G3). Appended to the collected data is a 7­character line containing a checksum that is used to verify data integrity.

Pos Chan SerialNo Pact Tact RSSI RBL Mode RLRot TimeStamp (62 chars)

--------------------------------------------------------------------------------------------- (62 chars)
0: -- 1402246943 1000 23 54 236 0x41 0x00 1360360 (61 chars)
1: -- 1402246937 1025 24 54 236 0x41 0x00 1538230 (61 chars)
2: -- 0 10000 -40 0 0 0x00 0x00 0 (61 chars)
3: -- 0 10000 -40 0 0 0x00 0x00 0 (61 chars)

0xf372 (7 chars)
The CRC is generated by the CCITT algorithm G(x) = x16 + x12 + x5 + 1 with a 0x0000 register preload value. The

CRC is calculated over the 244 characters of the data payload.
On receipt of the data block at the host PC the data should be validated by means of the CRC. If the CRC validates

correctly, then the host PC should complete the data transfer by sending an ‘ack’ packet back to the Wireless Mini

Analyser. An ‘ack’ packet consists of the characters ‘ack’ followed by a linefeed. If the CRC fails to validate, then the

data may be re-requested via the ‘last’ command.
The complete sequence for the ‘last’ command is shown as follows:

At the USER1> prompt, the host PC sends the ‘last’ command
On receipt of the ‘last’ command the Wireless Mini Analyser responds with the data and CRC block, followed by a

USER1> prompt
The data block received by the PC is validated by a CRC check
If the check is successful the PC responds with an ‘ack’ message at the USER1> prompt

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▲ F L : 2 0 1 3 8 1 5 5 6 9 ▲ ▲ F R : 2 0 1 3 8 6 3 3 2 4 ▲ ▲ R L : 2 0 1 3 7 6 9 2 0 5 ▲ ▲ R R : 0

▲ ▼ F L : 2 0 1 3 8 1 5 5 6 9 ▼ ▼ F R : 2 0 1 3 8 6 3 3 2 4 ▼ ▼ R L : 2 0 1 3 7 6 9 2 0 5

▼

▼ R R : 0

▼

B a t t e r y S t a t u S < # # # # # # # # # # # # # # >

U p B a c k l i g h t D o w

N

▼ F L : 0 ▼ ▼ F R : 0 ▼ ▼ R L : 0 ▼ ▼ R R : 0

▼

On receipt of the ‘ack’ message the Wireless Mini Analyser will return to the USER1>, ready for the next host

command.

USER1> last

Pos Chan Serial No Pact Tact RSSI RBL Mode RLRot Timestamp

------------------------------------------------------------­ 0: -- 1402246943 1000 23 54 236 0x41 0x00 1360360
1: -- 1402246937 1025 24 54 236 0x41 0x00 1538230
2: -- 0 10000 0 0 0 0x00 0x00 0
3: -- 0 10000 0 0 0 0x00 0x00 0
0xf372

USER1> ack
USER1>

Note that as remote echo of data received at the Wireless Mini Analyser is suppressed due to the half-duplex

capability of the wireless link, the ‘last’ and ‘ack’ messages from the host PC will not appear on the terminal unless it

is configured to provide local echo.

In order to provide user feedback of reception of the ‘last’ command, the characters at the ends of the Wireless Mini

Analyser display screen toggle between up-arrow and down-arrow characters each time the command is received.

6.2.3 ‘setclear’ Command

The contents of the set buffer may be cleared via the host PC at any time using the ‘setclear’ command.
This command is generally used once a complete set of wheel sensors has been learnt and transferred, in order to

clear the buffer ready for next use. In order for the host PC to verify that the command has been correctly received

and executed by the Wireless Mini Analyser it will respond with an ‘ack’ packet. An ‘ack’ packet consists of the

characters ‘ack’ followed by a linefeed.
On receipt and execution of the ‘setclear’ command the unit first switches to the battery status display screen, which

is splashed for 3 seconds. This allows the user to monitor the battery usage without the need to switch operating
modes.

The display will then return to the main sensor positioning screen, having had the displayed serial numbers reset to
zeros.

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Setup

Up Ok Down

Setup

Up Ok Down

Setup

Up Ok Down

Setup

Up Ok Down

Setup

Up Ok Down

Setup

Up Ok Down

Up Ok Down

Up Ok Down

Battery Status

Up Backlight Down

6.2.4 ‘gencfg’ Command

By default the Wireless Mini Analyser is configured to auto detect and decode RF datagrams from Ge1, Gen2 and
Gen 3 sensors. In some situations the user may wish to configure the unit to receive only sensors of a specific type.

This can be achieved via the ‘gencfg’ terminal command.
Sending the ‘gencfg’ command with no argument at the USER1> prompt will result in the current setting, and

available options being returned by the Wireless Mini Analyser:

USER1> gencfg
Current sensor gen configuration 4
Sensor gen configuration 0 = GEN1
Sensor gen configuration 1 = GEN2
Sensor gen configuration 2 = GEN3
Sensor gen configuration 4 = Auto
USER1>

To modify the setting the ‘gencfg’ command should be sent with the appropriate argument. The Wireless Mini

Analyser will respond with a message indicating the change has taken place.

USER1> gencfg 2
Sensor gen configuration 2 set

If the terminal is not configured for local echo then the information sent at the USER1> prompt will not be visible on
the terminal.

6.3 Setup Menu

The setup menu gives access to status and configuration information for the Wireless Mini Analyser. Pressing the
power button and left arrow button at the same time accesses the setup menu. The setup menu is entered at the
<Power Settings> menu page. Other available pages are accessed using the Left Arrow / Right Arrow navigation
buttons.

Power Settings

Beep / LED 1

Beep / LED 2

System Info

Contrast

Channel Config

The setup menu can be exited by pressing and holding the Left Arrow navigation button. This will move the user to
the top level menu.

RF Receive

Setup

<######## >

The <Battery Status> page indicates the current state of charge of the Mini Analyser internal battery, and also allows
the user to turn on and off the display backlight . The backlight state is toggled by pressing the power button.

Pressing the power button at the <RF Receive> top level menu page returns the user to the default sensor display
page.

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Setup

Up Ok Down

[Auto Pwr :10mins]

Prev Toggle Next

Setup

Up Ok Down

[LF Tx : Beep / LED]

Prev Toggle Next

6.3.1 Power Settings

The <Power Settings> selection page allows the user to configure the automatic power controls for the Mini
Analyser. The <Power Settings> selection page is entered by pressing the power button at the <Setup – Power
Settings> menu page.

Power Settings

Auto BL :1min

Auto Pwr: The Mini Analyser will power off if no buttons are pressed or no serial data is received for greater

than this time

Auto BL: If enabled the Mini Analyser display backlight will be turned off if no buttons are pressed or no serial

data is received for greatert hat this time

Within the <Power Settings> selection page the field to be changed is selected using the Left Arrow / Right Arrow
navigation keys. With the required menu item highlighted by the square brackets […] pressing the power button
cycles through the available options.

The <Power Settings> selection page is exited by pressing and holding the Left Arrow navigation key. This returns
the user to the <Setup – Power Settings> menu page.

6.3.2 Beep / LED 1

The <Beep / LED 1> selection page allows the user to configure the indicators for LF transmissions by the Mini
Analyser. The <Beep / LED 1> selection page is entered by pressing the power button at the <Setup – Beep / LED
1> menu page.

Beep / LED 1

LF Tx: Selects indication mode for LF transmissions, options are:
Off – No indication
Beep – Audible indication
LED – Visual indication
Beep/LED – Both
Keypad: Enables / disables keypad click

Within the <Beep / LED 1> selection page the field to be changed is selected using the Left Arrow / Right Arrow
navigation keys. With the required menu item highlighted by the square brackets […] pressing the power button
cycles through the available options.
The <Beep / LED 1> selection page is exited by pressing and holding the Left Arrow navigation key. This returns the
user to the <Setup – Beep / LED 1> menu page.

Keypad : Click

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Setup

Up Ok Down

[RF Rx Live: Beep / LED]

Prev Toggle Next

6.3.3 Beep / LED 2

The <Beep / LED 2> selection page allows the user to configure the indicators for LF transmissions by the Mini
Analyser. The <Beep / LED 2> selection page is entered by pressing the power button at the <Setup – Beep / LED
2> menu page.

Beep / LED 2

RF Rx Trig: Default
RF Rx Move: Default

RF Rx Live: Selects indication mode for general RF reception, options are:
Off – No indication
Beep – Audible indication
LED – Visual indication
Beep/LED – Both
RF Rx Trig: Selects indication mode for LF triggered RF reception, options are:
Default – Indication as per RF Rx Live
Beep – Audible indication
LED – Visual indication
Beep/LED – Both
RF Rx Move: Selects indication mode for moving sensor RF reception, options are:
Default – Indication as per RF Rx Live
Beep – Audible indication
LED – Visual indication
Beep/LED – Both

Within the <Beep / LED 2> selection page the field to be changed is selected using the Left Arrow / Right Arrow

navigation keys. With the required menu item highlighted by the square brackets […] pressing the power button

cycles through the available options.
The <Beep / LED 2> selection page is exited by pressing and holding the Left Arrow navigation key. This returns the

user to the <Setup – Beep / LED 2> menu page.

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Setup

Up Ok Down

Contrast Control
##############
##############

Up Exit Down

Setup

Up Ok Down

Software

Up Exit Down

Hardware

Part No F1-100-0110

Serial 000 Rev A

Up Exit Down

Date Made 030805
Cust Code 099

Age Mins 937

Up Exit Down

Diags Temp:0.00

Up Exit Down

6.3.4 System Info

The System Info pages provide details regarding the Mini Analyser hardware and software. The <System Info>
display pages are entered by pressing the power button at the <Setup – System Info> page.

System Info

3V:3.308 Ref:5.00
5V:4.995 Vbat:10.0

Part No F1-37-9885
Version 1.05

6.3.5 Contrast

The <Contrast Control> page allows the user to adjust the display contrast of the Mini Analyser LCD. The <Contrast
Control> page is entered by pressing the power button at the <Setup – Contrast> menu page.

Contrast

The contrast setting is adjusted using the Left Arrow / Right Arrow navigation keys.
The <Contrast Control> page is exited by pressing the power button. This returns the user to the <Setup –

Contrast> menu page.

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Setup

Up Ok Down

[Gen Detect :Auto]

Prev Toggle Next

Channel Config

The <Channel Config> selection page allows the user to select the sensor types that the Mini Analyser is capable of
decoding. The <Channel Config> selection page is entered by pressing the power button at the <Setup – Channel
Config> menu page.

Channel Config

Gen Detect: Selects the sensor types that can be decoded by the Mini Analyser
G1 – Gen1 sensors ONLY
G2 – Gen2 sensors ONLY
G3 – Gen3 sensors ONLY
Auto – Gen1, Gen 2, Gen3 sensors

Pressing the power button cycles through the available Gen Detect options.
The <Channel Config> selection page is exited by pressing and holding the Left Arrow navigation key. This returns

the user to the <Setup – Channel Config> menu page.

7 cParameters

The Wireless Module firmware contains a number of configurable parameters (cParameters). Under normal
circumstances there should be no need to modify these values. However, the end user may update these
parameters if necessary. In order to update the parameters the module to be updated should be connected to the
serial port of a PC running a terminal program.

The terminal program should be configured to operate at 19200 baud, 8 data bits, no parity, 1 stop bit. In order to
connect a Wireless Analyser Module to a PC for cParameter update, a null modem cable is required. The Wireless
PC Module may be connected directly to the serial port of the PC, or using a straight through male to female serial
port extension lead. When performing cParameter updates power is provided visa the micro-USB connector on the
side of the module, regardless of the module type.

With the module connected to the PC and powered on, depressing the recessed button on the module for 0.5
seconds using a suitable implement (such as a paperclip) enters cParameter edit mode. On entering cParameter
edit mode the Wireless Module will report part number and software version information to the terminal, followed by
the USER> prompt.

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7.1 Wireless Analyser Module

The cParameters in the Wireless Analyser Module that may be updated by the user are:

Network ID [PAN_ID]
Co-ordinator MAC address [C_MAC_Addr_1]
Link activity timeout [Link_timeout]

To make changes to any of these parameters the commands detailed below may be used.

7.2 Wireless PC Module

The cParameters in the Wireless Analyser Module that may be updated by the user are:

Network ID [PAN_ID]
End device MAC addresses [ED_MAC_Addr_x] (x = 1…8)
Link activity timeout [Link_timeout]

To make changes to any of these parameters the commands detailed below may be used.

7.3 Arguments

7.3.1 PAN_ID

The user command for changing the overall network ID shall have the following format:
PAN_ID <ddddd>

<ddddd> – 16 bit decimal value for PAN ID setting

eg: PAN_ID 56994
Result: PAN_ID is set to DEA2 (hex)

Typing the PAN_ID command with no argument shall report the current PAN_ID setting.

7.3.2 ED_MAC_Addr [n] / C_MAC_Addr 1

The user command for changing the end device MAC addresses held within the cParameter table shall have to
following format:

ED_MAC_Addr [n] <ddddd> <ddddd> <ddddd> <ddddd>

Or

C_MAC_Addr 1 <ddddd> <ddddd> <ddddd> <ddddd>

n – ED_MAC address to change n = 1..8 (Wireless PC Module)
<ddddd> – 16 bit decimal values for MAC address settings, most significant word first

eg: ED_MAC_Addr 3 21 39096 10 52171
Result: ED_MAC_Addr 3 is set to 0015-8D00-000A-CBCB (hex)

Typing the ED_MAC_Addr command with only the MAC address number argument [n] shall report the current
setting of the specified ED_MAC_Addr.

Typing the C_MAC_Addr command with only the first argument [1] shall report the current setting of
C_MAC_Addr 1.

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7.3.3 Link_timeout

The user command for changing the link timeout held within the cParameter table shall have to following format:

Link_timeout <ddddd>

<ddddd> – 16 bit decimal value for Link_timeout setting, expressed in seconds
eg: Link_timeout 15

Result: Link_timeout is set to 15 seconds
Typing the Link_timeout command with no argument shall report the current Link_timeout setting.

8 Bootloader

8.1 Mini Analyser Firmware Update

The Mini Analyser firmware may be upgraded using the bf1systems supplied Analyser Bootloader program. Loss of
power or communications during the update process may leave the unit in an undefined (non-operating) state. The
following precautions should be taken before beginning the firmware update process:

 Securely connect the RS232 cable to the Mini Analyser
 Securely connect the RS232 cable to the PC using the screw retainers
 Ensure the Mini Analyser battery is in a good state of charge

As the Wireless Mini Analyser has a default serial communication rate of 19200 baud, and the bootloader software
operates at 57600 baud it will be necessary to modify the Wireless Mini Analyser communication speed in order for
the bootloader to function.

With the Mini Analyser unit connected to the host PC serial port start a terminal emulator (HyperTerm, TeraTerm etc)

and configure for 19200 baud communication and enable ‘local echo’ for the terminal. Pressing the enter key in the

terminal will cause the USER1> prompt to be output by the Mini Analyser.
The ‘baudrate’ command can then be used to reconfigure the communication speed of the Mini Analyser:

USER1> baudrate 5

Rates 1:4800 2:9600 3:19200 4:38400 5:57600 6:115200

Change terminal baud rate, then press a key...

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The Mini Analyser communication speed is now correct to function with the bf1systems Analyser Bootloader
software. Close the terminal emulator and start the bootloader software. The screenshot below shows the
bootloader software.

The following steps should be followed to update the firmware:

 Ensure a known good battery is used or the analyser is powered from the charger during the update.
 Confirm ‘System: Live’ is shown in the bottom right corner.
 Select the <Update Motherboard Firmware> button. This will call up a file dialog, where the required .fwr file

can be selected.

 Once the file is selected the Mini Analyser will auto power off ready for update (Status : Starting Bootloader)
 Press the Action Key on the Mini Analyser to start the motherboard bootloader.
 The bootloader program will now erase the old firmware (Status : Erasing FLASH) and program in the

selected firmware file (Status : Programming FLASH). The progress of the programming operation can be
monitored via the Programming Status bar, and the Status field at the bottom of the screen.

 When programming completes (Status: Starting Firmware), the new firmware can be started by pressing the

Action Key to power on the Mini Analyser

The firmware update is now complete.

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Parameter

Units

Conditions

Min

Typ

Max

Supply Voltage

V

Power supplied to module via Pin 9 on the 9-Way D
Connector or by the Mini USB connector

5

Supply Current

mA

50

Parameter

Units

Conditions

Min

Typ

Max

Data Rate

kbaud

19.2

Protocol

2.4GHz IEEE802.15.4 Compatible

Communications Range

m

50 Transmit Power Level

dBm 2.5

Receiver Sensitivity

dBm

-96

Parameter

Units

Conditions

Min

Typ

Max

Operating Temperature Range

°C -20 70

Lead-Free and RoHS compliant

Compliant with FCC part 15 rules, IC Canada, ETSI ETS 300-328 and Japan ARIB STD T66

FCC ID: TYOJN5139M0

IC: 7438A-CYO5139M0

These modules have been designed to operate with antennas having a maximum gain of 4.4 dBi. Antennas

having a gain greater than 4.4 dBi are strictly prohibited for use with this device. The required antenna

impedance is 50 ohms.

As long as the above condition is met, further transmitter testing will not be required.

9 Wireless Analyser Module Specifications

9.1 General

9.2 Communications

9.3 Environmental

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Important Notice
User information according to FCC15.21

Changes or modifications not expressly approved by the party responsible for compliance could void the user’s authority to operate the
equipment.

b) Statement for Class B digital device acc. to FCC 15.105

NOTE: This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC
Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This
equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions,
may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular
installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the
equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:

—Reorient or relocate the receiving antenna.
—Increase the separation between the equipment and receiver.
—Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.
—Consult the dealer or an experienced radio/ TV technician for help.

c) Statement acc. RSS Gen Issue 3, Sect. 7.1.3

This device complies with Part 15 of the FCC Rules and with Industry Canada license-exempt RSS standard(s). Operation is subject
to the following two conditions: (1) this device may not cause harmful interference, and (2) this device must accept any interference
received, including interference that may cause undesired operation.
Le présent appareil est conforme aux CNR d'Industrie Canada applicables aux appareils radio exempts de licence. L'exploitation est
autorisée aux deux conditions suivantes : (1) l'appareil ne doit pas produire de brouillage, et (2) l'utilisateur de l'appareil doit accepter
tout brouillage radioélectrique subi, même si le brouillage est susceptible d'en compromettre le fonctionnement.

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Parameter

Units

Conditions

Min

Typ

Max

Supply Voltage

V

Power supplied to module via Pin 9 on the 9-Way D
Connector or by the Mini USB connector

5

Supply Current

mA

50

Frequency Band

Channel Number

Centre Frequency (MHz)

Geographical Area

2400MHz

11

2405

Worldwide

12

2410

13

2415

14

2420

15

2425

16

2430

17

2435

18

2440

19

2445

20

2450

21

2455

22

2460

23

2465

24

2470

25

2475

26

2480

Wireless PC Analyser Module Specifications

9.4 General

9.5 Communications

The implemented IEEE 802.15.4 based network operates in the 2400 MHz (2.4GHz) radio frequency band. This
band has 16 channels available channels for general-purpose use. The channels used by the Wireless analyser
Modules utilise the channels shown in the table below.

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Parameter

Units

Conditions

Min

Typ

Max

Data Rate

kbaud

19.2

Communications Range

m

50

Transmit Power Level

dBm 2.5

Receiver Sensitivity

dBm

-96

Protocol

2.4GHz IEEE802.15.4 Compatible

Parameter

Units

Conditions

Min

Typ

Max

Operating Temperature
Range

°C -20 70

Lead-Free and RoHS compliant

Compliant with FCC part 15 rules, IC Canada, ETSI ETS 300-328 and Japan ARIB STD T66

FCC ID: TYOJN5139M0

IC: 7438A-CYO5139M0

These modules have been designed to operate with antennas having a maximum gain of 4.4 dBi. Antennas

having a gain greater than 4.4 dBi are strictly prohibited for use with this device. The required antenna

impedance is 50 ohms.

As long as the above condition is met, further transmitter testing will not be required.

Important Notice
User information according to FCC15.21

Changes or modifications not expressly approved by the party responsible for compliance could void the user’s authority to operate the
equipment.

b) Statement for Class B digital device acc. to FCC 15.105

NOTE: This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC
Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This
equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions,
may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular
installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the
equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:

—Reorient or relocate the receiving antenna.
—Increase the separation between the equipment and receiver.
—Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.
—Consult the dealer or an experienced radio/ TV technician for help.

c) Statement acc. RSS Gen Issue 3, Sect. 7.1.3

This device complies with Part 15 of the FCC Rules and with Industry Canada license-exempt RSS standard(s). Operation is subject
to the following two conditions: (1) this device may not cause harmful interference, and (2) this device must accept any interference
received, including interference that may cause undesired operation.

Le présent appareil est conforme aux CNR d'Industrie Canada applicables aux appareils radio exempts de licence. L'exploitation est

autorisée aux deux conditions suivantes : (1) l'appareil ne doit pas produire de brouillage, et (2) l'utilisateur de l'appareil doit accepter

tout brouillage radioélectrique subi, même si le brouillage est susceptible d'en compromettre le fonctionnement.

9.6 Environmental

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Input

(VAC)

Output

(VDC)

Output

(W)

Output

(mA)

Protection/IP Class

Tech

Fitting size

230 @ 50Hz

2x 9.8

1.4 Max

70

II / IP20

Ni-Cd

Ni-MH

2x 9V Block

10 Charger MW 9V MW6288GS

10.1 Specifications

11 EMSA050100 USB power supply

11.1 Specifications