Wavecom W-SPECTRA (Automatic Monitoring System) V1.1.0 User Manual

WAVECOM Monitoring System W-SPECTRA, W-SPEED Manual V1.1.0

Transmission Modes



99

Parameter

Value

Receiver settings

FM, BW = 15-30 kHz

Input format(s)

IF

Additional Info

Bit rate = 6250 bps

Radio Link

ERMES employs a radio link transfer protocol conforming to the ETSI pr ETS 300 133-4 standard (ETS 300
133-1 to ETS 300 133-7). Transmissions are within the range from 169.4125 MHz to 169.8125 MHz all
over Europe. Channel spacing is 25 kHz. The nominal frequencies and the channel numbering are defined
as:

fn = 169.425 + n * 0.025 MHz

n = Channel number (0...15)

ERMES transmitter allocations follow the CEPT T/R 25-07, annex 1 recommendation.

Modulation

ERMES modulation is 4-PAM/FM. The four frequency pulse-amplitude modulation carries two bits (dibit)
per frequency step. In addition to coherent phase keying ERMES also utilizes pre-modulation pulse shap-
ing. To decrease bit error rate, data is encoded using the Gray code.

The nominal frequencies are:

Carrier

Dibit symbol

+ 4687.5 Hz

10

+ 1562.5 Hz

11

- 1562.5 Hz

01

- 4687.5 Hz

00

The ERMES Protocol

A sequence of 60 seconds is partitioned into 60 cycles. The sequences are synchronized to UTC. The cycles
have duration of exactly one minute, and synchronize the various ERMES networks (transmitters). In this
way the receivers will only receive one or more cycles and thus power consumption is substantially re-
duced.

Each cycle is subdivided into five subsequences of 12 seconds each. In order to maintain synchronism be-
tween networks the subsequence number (command SSN = 0) is transmitted preceding every UTC minute
marker.

A subsequence may also have duration of less than 12 seconds. The remaining time is used for transmit-
ter switching.

Each subsequences is further divided into 16 batches designated A to P. Thus the pagers are divided into
16 groups. The transfer mode (tone call only, numerical call, alphanumerical call) is controlled by the posi-
tion of the batch number.

The receiver addressing only takes place within the appropriate batch. After decoding its address the re-
ceiver will wait on the same frequency for data. Data may be transmitted within the same batch, within
another subsequence batch or within subsequent subsequences.

Each batch is subdivided into four parts: synchronization, system information, address and text.