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Line Interface Unit v2.0
Technical Information
Operating Instructions
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Impressum
Meinberg Funkuhren GmbH & Co. KG
Lange Wand 9
D-31812 Bad Pyrmont
Phone: +49 (0) 52 81 / 9309-0
Fax: +49 (0) 52 81 / 9309-30
Internet: http://www.meinberg.de
Email: info@meinberg.de
May 25, 2010
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Impressum ............................................................................................ 2
Features LIU ......................................................................................... 5
Block diagram ............................................................................. 6
Standard frequencies ................................................................... 7
Telecom signals ........................................................................... 7
Pulse templates ................................................................... 8
Technical specification LIU ........................................................ 9
Signals at the VG-connector...................................................... 10
Rear connector pin assignments ................................................ 11
Table of Contents
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4
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5
Features LIU
Out 2
Out 1
Out 3
Out 4Out 4Out4
Out 2Out 2
Out 3Out3
Out 1Out 1
E1/T1 framed
balanced
E1/T1 Clock
balanced
E1/T1 Clock
unbalanced
The board LIU (Line Interface Unit) was designed to convert the GPS-locked standard
frequency of a preconnected Meinberg satellite controlled clock GPS170 or GPS170SV
into several timing signals that can be used for various synchronization or measurement
tasks. Typical applications are:
Measurement and test of synchronization quality of Telecom networks
Calibration and synchronization of laboratory equipment
Test of synchronization of radio transmitters / base stations
(GSM / CDMA / UMTS / DAB / DVB)
There are two seperate signal paths on the board LIU. One is for providing the
standard frequencies, the second path is for generation of the ‘telecom-signals’. All
output signals have high accuracy and stability because they are derived from GPSdisciplined standard frequencies generated by the preconnected GPS-clock. Depending
on the oscillator option of the preconnected clock, the following accuracies can be
achieved:
oscillator option of clock short term stability GPS-synchronised
OCXO MQ ±2·10
-10
OCXO HQ ±5·10
-12
Rubidium ±2·10
-12
5
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6
Block diagram
The following block diagram illustrates the functional principle of the board LIU:
micro
controller
RS232
interface
LIU v2.0
low pass filter
framer &
line interface
devide by 2 low pass filter
low pass filter
isolation
isolation
isolation
isolation
isolation
isolation
isolation
isolation
amplifier
amplifier
4.096 MHz
10 MHz
framed outputs
T1.403/G703-9,
balanced (or unbalanced),
1.544 Mbps or 2.048 Mbps
standard frequencies
0.6Vrms sine, unbalanced
5 MHz and 10MHz
diplexerdiplexerdiplexer
amplifier
amplifier
amplifier
amplifier
clock outputs
G703-13, balanced
1544 kHz or 2048 kHz
clock outputs
G703-13, unbalanced
1544 kHz or 2048 kHz
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Standard frequencies
The 5 MHz and 10 MHz standard frequencies are derived directly from the master
oscillator of the preconnected GPS-clock. This oscillator is phase locked to the precise
PPS-signal (pulse per second generated from GPS-receiver), thus the standard frequencies are locked to the PPS also. After passing an additional filter and an amplifier circuit,
the standard frequencies can be optionally fed to BNC-connectors.
Telecom signals
These signals can be devided into two groups:
the clock outputs and the ‘framed’ outputs, that are provided by a framer and line
interface device on the board LIU. All clock signals needed for generation of the
‘telecom outputs’ are phase locked to a 4.096 MHz reference clock, which is generated
by a frequency synthesizer on the preconnected GPS-clock. This synthesizer is phase
locked to the PPS-signal and frequency locked to the master oscillator of the clock.
The module LIU is able to generate signals for the American T1- or the European E1system. The mode of operation depends on the position of a DIP-switch or the state of a
control input in the following way:
DIP-switch 1 „ON“ or control input „low“: E1-mode
DIP-switch 1 „OFF“ or control input „high“: T1-mode
The clock outputs are standard frequencies of either 1544 kHz (T1) or 2048 kHz (E1).
Four unbalanced and four balenced outputs according to ITU-T G703-13 (CCITT
recommendation ‘Physical/electrical characteristics of hierarchical digital interfaces) are
available via BNC- and BNC-Twinax-connectors.
The ‘framed’ outputs are consisting of data signals known from digital telephony,
which are distributed by using a special frame structure. As a synchronization unit, LIU
only generates a ‘framed all ones’ signal (data byte 0xFF hex) with a transmission speed
of either 1.544 Mbps (T1) or 2.048 Mbps (E1). Four outputs according to ANSI T.403
(T1-mode) or ITU-T G703-9 (E1-mode) are available either unbalanced via BNC
connectors or balanced via BNC-Twinax connectors. Two different line codes used for
error correction are known for the transmission of framed signals. The board LIU
generates B8ZS- (in T1-mode) or HDB3-coded (in E1-mode) output signals by
standard. The generated coding depends on the position of the DIP-switch no. 4 in the
following way:
DIP-switch 4 „OFF“: HDB3- (E1) or B8ZS-coding (T1)
DIP-switch 4 „ON“: AMI-coding
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Pulse templates
The following pulse templates are required by ANSI (T1-mode) and CCITT (E1-mode)
for output signals in telecom applications. The board LIU meets these recommendations.
T1 (T.403):
E1 (G.703):
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Technical specification LIU
INPUT SIGNALS: 10 MHz, TTL level
4.096 MHz reference clock, sine-wave 1.5 V eff.
FREQUENCY
OUTPUTS: 10 MHz and 5 MHz sinewave, 0.6 Vrms into 50 Ω
CLOCK
OUTPUTS: 1544 kHz or 2048 kHz
according to G703
4 outputs 75 Ω unbalanced , BNC and
4 outputs 120 Ω balanced , BNC-Twinax
FRAMED
OUTPUTS: 1.544 Mbps or 2.048 Mbps
4 output 75 Ω unbalanced , BNC or
4 output 120 Ω balanced , BNC-Twinax
B8ZS/HDB3 or AMI line coding
Framer and line interface meets following recommendations:
T1-mode: ITU I.431
AT&T PUB43801
TR-62411
ANSI T1.102, T.403, T.408
E1-mode: ITU-T G.703, G.704, G.706, G.775, G.796,
G.732, G.823
I.431
SHORT TERM
STABILTTY: depends on oscillator option of GPS-clock
ACCURACY: depends on oscillator option of GPS-clock
POWER
REQUIREMENTS: 5 V ± 5%, @350 mA
DIMENSIONS: Eurocard, 100mm x 160mm, 1.5mm Epoxy
FRONT PANEL: 3U / 14HP (128 mm high x 71.1 mm wide), Aluminium
CONNECTORS: according to DIN 41612, type C 64, rows a+c (male)
4 BNC- and 8 BNC-Twinax-connectors
AMBIENT
TEMPERATURE: 0 ... 50 °C
HUMIDITY: 85% max.
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Signals at the VG-connector
Name of signal contact description
GND 32a+c reference potential
VCC in (+5V) 1a+c +5V power supply
/BSL 4a control input for firmware updates
TTL level, active low
/Reset in/out 9c reset signal, TTL level, active low
10MHz in 12a reference frequency 10 MHz, TTL level
CLK 4.096MHz in 21c reference frequency 4.096 MHz, sine-wave
COM0 TxD out 26c COM0 RS-232 output
COM0 RxD in 30c COM0 RS-232 input
SW1 in 16c input for mode control, TTL level
low: E1-mode
high: T1-mode
SW2 in 15c control input reserved for expansion, TTL level
SW3 in 14c control input reserved for expansion, TTL level
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Rear connector pin assignments
ac
1)V5+(niCCV)V5+(niCCV
2
3
4LSB/
5
6
7
8
9tuo/niteseR/
01
11
21nizHM01
31
41ni3WS
51ni2WS
61ni1WS
71
81
91
02
12nieniszHM690.4
22
32
4
2
52
62tuoDxT0MOC
72
82
92
03niDxR0MOC
13
23DNGDNG
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LI U20- E- 250510
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