MANUAL
LANTIME M600 GPS PTPv2
Network Time Server and
PTPv2 Grandmaster Clock
Table of Contents
1 Impressum 1
2 Quick Start 2
3 Network Timeserver with GPS synchronized time base 4
4 The Modular System LANTIME 5
5 Network Time Protocol (NTP) 8
6 Precision Time Protocol (PTP) / IEEE1588 10
7 GPS satellite controlled clock 19
8 Mounting the GPS Antenna 21
9 Booting the GPS170 receiver 24
10 Booting the Single Board Computer 25
11 Configuration User Interface 26
1 Impressum
2 Quick Start
MEINBERG LANTIME
is booting... please wait...
.......
NTP: Offs. 1ms Stratum: 1
MRS: sync to GPS XTL:SYNC SVs:9/10
PTP: ok PTP_SLAVE GM:00:00:00:00:00:00
Press F1 for help or F2 for setup overview
F1
UTC
Tue, 01.01.2008
12:00:00
MRS Status
-> Setup Input Priorities <-
Setup Fixed Offsets
Setup Precisions
1.GPS is master : -10ns
2.PPS in is available : -20ns
3.IRIG no signal : n/a
4.NTP is available : -30.000us
2.PTP (IEEE1588)is available : -300ns
F1
MRS Input Priorities
GPS Receiver Position
-> Satellite Constellation <-
GPS Status & Version
SATELLITE CONSTELLATION
satellites in view: 5
good satellites : 5
selected set: 04 09 21 17
Global Configuration
->Network Interfaces <-
Network Services
ETH0: -> DHCP:disable <-
ADDRESS: 192.168.10.20
NETMASK: 255.255.255.000
DEF.GATEWAY: 192.168.10.1
3 Network Timeserver with GPS synchronized
time base
4 The Modular System LANTIME
ENGLISH
1. VF Display
2. Function buttons: 4-way navigation
Button; F1, F2, OK, ESC
3. Status LEDs: Ref. Time, Time Service,
Network, Alarm
4. Terminal port, RS232 Time String output
5. USB connector
6. Brackets for 19” Mounting Rack
1. VF Display
2. Function keys: 4 - way buttons;
F1, F2, OK, ESC
3. Status LEDs: Ref. Time, Time Service,
Network, Alarm
OK
ESC
Time Service
Ref. Time
Network
Alarm
Terminal
USB
5
9
1
6
F1
F2
GPS
NTP
Time
Date
: Normal Operation
: Sync. to PPS
: 16:12:35
: 12.01.2006
(hh:mm:ss)
(dd.mm.yyyy)
1 2 3 4 5 6
4. Terminal port, RS232 timestring output
5. USB connector
6. Bracket for 19” rack mount
ETH0
ETH2
ETH1
ETH3
O
I
100-240V AC
50/60Hz
Synth.
PPM
COM1
COM 0
Error
CO NO NC
1
6
5
9
1
6
5
9
PPS
TC-DCLS
10MHz
TC-mod
100M 10M100M 10M
100M 10M100M 10M
GPS
Antenna
1. Power supply 85 ... 264 V AC, 47... 63 Hz,
1 A/230 V, 2 A/115 V
2. Mains socket
3. RS232 output, serial interface, time telegram
4. Error relais output
5. GPS antenna, BNC
6. 10MHz output
7. Pulse Per Second output
8. Pulse Per Minute output
9. Frequenzy synthesizer output
10. Time code output - AM (modulated)
11. Time code output - DCLS (unmodulated)
12. IEEE1588 PTPv2, RJ-45 connector
1 x Network connector: ETH4 - 10/100 Mbit, RJ45
13. 4 x Network connectors: ETH0, ETH1,
ETH2, ETH3
10/100 Mbit, RJ45
13 12 11 10 9 8 7 6 5 4 3 2 1
100M 10M100M 10M
PTP0
IEEE1588
ETH4
4.1 Supported Network Services
4.2 Additional Features
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4.3 User Interface
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4.4 Input and Output Options
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4.5 Why to use a Network Time Server?
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5 Network Time Protocol (NTP)
5.1 NTP Target
5.2 NTP-Client Installation
6 Precision Time Protocol (PTP) / IEEE1588
6.1 General Information
10/100MBit
LAN
Network Interface Card
PTP Time Stamp Unit
Single Board Computer
PTP Protocol Stack
Reference Time Source
GPS Receiver
PTP Master System only
USB
PPS10MHz
6.2 Functionality in Master Systems
10/100MBit
LAN
10 Mhz from GPS
RJ45 with
magnetics
and LEDs
PHYceiver
MAC
controller
USB hub
FPGA
microcontroller
with integrated
progr. memory
10M/activity
100M/activity
Rx/Tx
MII interface
USB
USB 1.1
to computer
module
Time Stamp Unit PTP Master
FPGA
configuration
memory
PPS from GPS
control
adr/data
control
data
USB
6.3 Functionality in Slave Systems
10/100MBit
LAN
10 MHz
PPS
programmable
outputs
modulated
time code
RJ45 with
magnetics
and LEDs
PHYceiver
MAC
controller
USB hub
status LEDs
driver
circuits
FPGA
filter and
driver circuit
oscillator
DAC
microcontroller
with integrated
progr. memory
FPGA
configuration
memory
10M/activity
100M/activity
Rx/Tx
MII interface
USB
USB
data control
control
control
voltage
PWM time code
clock
adr/data
control
USB 1.1
to computer
module
clock
status
Time Stamp Unit PTP Slave
6.4 PTPv2 IEEE 1588-2008 Configuration Guide
6.4.1 General Options
6.4.2 Network Layer 2 or Layer 3
6.4.3 Multicast or Unicast
6.4.4 Two-Step or One-Step
6.4.5 End-To-End (E2E) or Peer-To-Peer (P2P) Delay Measurements
6.4.6 Mode Recommendations
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