- 1200 1200c M100 M300 User Manual 2016
- 1200 1200c M100 M300 User Manual Instructions
- 1200 1200c M100 M300 User Manual Diagram
- 1200 1200c M100 M300 User Manual For Sale
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Key Features
- Selectable Reference Time Sources:
- GPS: Satellite receiver for the Global Positioning System
- GNS: Combined GPS/GLONASS/Galileo/BeiDou satellite receiver (L1 frequency band), can also be used for mobile applications
- GNS-UC: GPS and Galileo Satellite Receiver with Up-Converter for Meinberg GPS Antenna/Converter
- PZF: DCF77 correlation receiver for middle europe
- MSF: Long wave receiver for Great Britain
- WWVB: Long wave receiver for the US time signal
- TCR: Time code receiver for IRIG A/B, AFNOR or IEEE1344 codes
- MRS: (GPS, PPS, 10MHz, NTP): Multi Reference Source - several reference sources, adjustable following priority of signal
- RDT: (external PPS or NTP): Time Server without internal receiver module
- Synchronization of NTP and SNTP compatible clients
- Web-based status and configuration interface (Demo) and console-based graphical configuration utility
- Supported net protocols: IPv4, IPv6, NTP, (S)NTP, DAYTIME, DHCP, HTTP, HTTPS, FTP, SFTP, SSH, SCP, SYSLOG, SNMP, TIME, TELNET
- Alert-Notification system of status change by Email, WinMail, SNMP or an external connected display
- Full SNMP v1,v2,v3 support with own SNMP-daemon for status and configuration and SNMP Trap messages
- USB Port for installing firmware updates, locking frontpanel menu access and backup/restore of configuration and log files
- Meinberg GPS Antenna/Converter Unit connected with up to 300m of standard coaxial cable RG58
- Meinberg's LANTIME time server is available with a variety of additional output options: IRIG Time Code, frequency synthesizer and programmable pulse outputs illustrate some of the many expansion options for your NTP server
- Two (standard) or optional up to six independant RJ-45 ethernet interfaces 10/100 MBit
Previous Models - LANTIME-M300:
LANPZF :: NTP Server in 1U Case for Server Rackmount
LANRD :: NTP Server in 1U Case for Server Rackmount
LANIRIG :: NTP Server in 1U Case for Server Rackmount
LANNDT :: NTP Server in 1U Case for Server Rackmount
LANGPS :: NTP Server in 1U Case for Server Rackmount
Portege M100 Portege M200 Portege M205-S809 Portege M210 Portege M300 Portege M500 (1014E, P1011E) PA3389U-2M25 PA3412U-1M51 PA3412U-2M51 PA3411U-2M1G. These systems are configurable from Toshiba and, depending on region, may ship with either DDR2-533 or DDR2-667. These can be mixed, however, when mixed they will default to DDR2-533. Role: Other Users in Sub-Role.
Product Description
A large display shows the state of the NTP subsystem.
The configuration of the system can be done by using a standard web browser to access the extensive but straightforward html interface. Alternatively a text based and menu driven setup utility can be started from the shell prompt after logging into the unit via Telnet or SSH.
Because of its modular system architecture it is possible to equip this LANTIME time server with up to six ethernet ports, even fiber optic network ports and one or three Gigabit Ethernet ports are available as an option.
Characteristics
Display | LC-display, 2 x 40 characters, with backlight |
Control elements | Eight push buttons to set up basic network parameters and to change receiver settings |
Status info | Four bicolor LEDs showing status of: - reference time - time service - network - alarm |
Frequency outputs | 10 MHz via female BNC connector, TTL into 50 Ohm Accuracy depends on oscillator (standard: TCXO), look at Delete oscillator list |
Pulse outputs | Pulse Per Second (PPS), TTL level, pulse width: 200ms |
Accuracy of pulse outputs | Depends on oscillator option: < ±100ns (TCXO, OCXO LQ) < ±50ns (OCXO SQ, OCXO MQ, OCXO HQ, OCXO DHQ) |
Interface | Two independent serial RS232-interfaces, menu configurable (in case of RDT models without internal receiver - the serial interfaces will be used as reference input). |
Optional Output Signals | Additional Output Options:: This LANTIME NTP server comes with many additional outputs options:PPS, 10MHz, programmable pulse outputs (PPS, PPM, PPH, DCF_MARK ..), IRIG modulated and unmodulated time code, T1 / E1 telecom signals, Frequency Synthesizer - to name just a few. Contact us for your specific device configuration. |
Data format of interfaces | COM 0: Baudrate: 300, 600, 1200, 2400, 4800, 9600, 19200 Baud Data Format: 8E1, 8E2, 8N1, 8N2, 8O1, 7E1, 7E2, 7N2, 7O1, 7O2 Time Telegram: Meinberg Standard-Telegram, SAT, NMEA RMC, Uni Erlangen (NTP), COMPUTIME, Sysplex, Capture-Telegramm, SPA, RACAL, Meinberg GPS, NMEA GGA, NMEA RMC GGA, NMEA ZDA, ION, 6021 or IRIG-J |
Network Interface | Standard: 2 x 10/100 MBit with RJ45 connector Available Options:
|
Universal Serial Bus (USB) Ports | 1x USB Port in front panel: - install firmware upgrades - backup and restore configuration files - copy security keys - lock/unlock front keys |
Power supply | Standard: 100-240 V AC (50/60 Hz) available DC variants: 100-200 V DC, 12 V DC and 20-60 V DC |
CPU |
|
Operating System of the SBC | Linux with nano kernel (incl. PPSkit) |
Network protocols OSI Layer 4 (transport layer) | TCP, UDP |
Network protocols OSI Layer 7 (application layer) | TELNET, FTP, SSH (incl. SFTP, SCP), HTTP, HTTPS, SYSLOG, SNMP |
Internet Protocol (IP) | IP v4, IP v6 |
Network Autoconfiguration Support | IPv4: Dynamic Host Configuration Protocol - DHCP (RFC 2131) IPv6: Dynamic Host Configuration Protocol - DHCPv6 (RFC 3315) and Autoconfiguration Networking - AUTOCONF (RFC 2462) |
Network Time Protocol (NTP) | NTP v2 (RFC 1119), NTP v3 (RFC 1305), NTP v4 (RFC 5905) SNTP v3 (RFC 1769), SNTP v4 (RFC 4330) MD5 / SHA-1 Authentication and Autokey Key Management |
Parallel Redundancy Protocol (PRP) | PRP (IEC 62439-3) |
Time Protocol (TIME) | Time Protocol (RFC 868) |
Daytime Protocol (DAYTIME) | Daytime Protocol (RFC 867) |
IEC 61850 | Synchronization of IEC 61850 compliant devices by using SNTP |
Hypertext Transfer Protocol (HTTP) | HTTP/HTTPS (RC 2616) |
Secure Shell (SSH) | SSH v1.3, SSH v1.5, SSH v2 (OpenSSH) |
Telnet | Telnet (RFC 854-RFC 861) |
Simple Network Management Protocol (SNMP) | SNMPv1 (RFC 1157), SNMPv2c (RFC 1901-1908), SNMP v3 (RFC 3411-3418) |
Form Factor | 19 inch multipac metal case 1U/84HE |
Ambient temperature | 0 .. 50°C / 32 .. 122°F |
Humidity | Max. 85% |
Scope of supply | Included in delivery is a MEINBERG outdoor antenna incl. mounting kit, pre-assembled antenna cable (except MRS, TCR and RDT models) and product documentation on USB storage. |
Technical Support | Meinberg offers free lifetime technical support via telephone or e-mail. |
Warranty | Three-Year Warranty |
Firmware Updates | Firmware is field-upgradeable, updates can be installed directly at the unit or via a remote network connection. Software updates are provided free of charge, for the lifetime of your Meinberg product. |
RoHS-Status of the product | This product is fully RoHS compliant |
WEEE status of the product | This product is handled as a B2B category product. In order to secure a WEEE compliant waste disposal it has to be returned to the manufacturer. Any transportation expenses for returning this product (at its end of life) have to be incurred by the end user, whereas Meinberg will bear the costs for the waste disposal itself. |
Additional Information | Additional information about the Meinberg LANTIME family of NTP time servers and other LANTIME models can be found on the LANTIME NTP Time Server Family Page . |
Downloads
Short Info Sheet
Manuals
Please note that only the most recent manual version is available for download. This manual therefore may not be suitable for all product versions.
- For drivers, SDKs, tools and utilities, please check our Download area
More Images
Page 5: Static elimination speed and operating distance, Operation time vs. operating distance, Operating area and operation time
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4
2-1
Before Installation
This section describes the static elimination performance of the SJ-M100/200 Series.
Before you install the SJ-M100/200 Series, fully calculate the distance between the Static Elimination
Head up to the target object and the time required for static elimination.
Before you install the SJ-M100/200 Series, fully calculate the distance between the Static Elimination
Head up to the target object and the time required for static elimination.
About Static Elimination Performance
■ Static elimination speed and operating distance
The SJ-R Series offers a variety of frequency settings to enable flexible static elimination according to
the location and application.
See 'Frequency setting' (page 6).
the location and application.
See 'Frequency setting' (page 6).
The following graphs show typical examples of the relationship of static elimination speed, operating
distance, and frequency settings for the SJ-R Series. Use the graphs to select the appropriate static
elimination setting.
distance, and frequency settings for the SJ-R Series. Use the graphs to select the appropriate static
elimination setting.
■ Operation time vs. operating distance
Static elmination
speed
Location
Operating
distance(mm)
Recommended
frequency (Hz)
High-speed
Low-speed
Production lines of films or sheets
(Short distance)
(Short distance)
50–300
50, 30
Clean bench (Middle distance)
300–1000
10, 8, 5
On ceiling of clean room (Long distance)
1000–2000
3, 1
Model: SJ-M030/030C
Measurement conditions:
The time required to eliminate the static charge of the
target from ±3000 V to ±300 V is measured.
The 150 x 150 mm plate monitor (20pF) is used.
The time required to eliminate the static charge of the
target from ±3000 V to ±300 V is measured.
The 150 x 150 mm plate monitor (20pF) is used.
Measurement conditions:
The time required to eliminate the static charge of the
target from ±5000 V to ±500 V is measured.
The 150 x 150 mm plate monitor (20pF) is used.
Under the downward air flow of 0.3 m/sec.
The time required to eliminate the static charge of the
target from ±5000 V to ±500 V is measured.
The 150 x 150 mm plate monitor (20pF) is used.
Under the downward air flow of 0.3 m/sec.
Model: SJ-M070/070C
50Hz
30Hz
25
20
15
10
5
30
Char
g
ed level (V)
Time (secs)
0
0
50
100
150
200
250
300
8Hz
5Hz
1Hz
50
60
40
30
20
10
0
0
400
600
800 1000 1200 1400 1600
200
Char
g
ed level (V)
Time (secs)
0
2
4
6
8
10
12
14
16
18
20
0
50
100
150
200
250
300
Operating distance (mm)
Operatin
g
time (sec.)
50Hz
30Hz
0
5
10
15
20
25
30
35
0
200
400
600
800 1000 1200 1400 1600
Operating distance (mm)
Operatin
g
time (sec.)
8Hz
5Hz
1Hz
2-1
Before Installation
Measurement conditions:
The time required to eliminate the static charge of the
target from ±3000 V to ±300 V is measured.
The 150 x 150 mm plate monitor (20pF) is used.
The downward air flow of 0 m/sec
3 NL/min (1 electrode) air purge
The time required to eliminate the static charge of the
target from ±3000 V to ±300 V is measured.
The 150 x 150 mm plate monitor (20pF) is used.
The downward air flow of 0 m/sec
3 NL/min (1 electrode) air purge
Measurement conditions:
The time required to eliminate the static charge of the
target from ±5000 V to ±500 V is measured.
The 150 x 150 mm plate monitor (20pF) is used.
Under the downward air flow of 0.3 m/sec.
3 NL/min (1 electrode) air purge
The time required to eliminate the static charge of the
target from ±5000 V to ±500 V is measured.
The 150 x 150 mm plate monitor (20pF) is used.
Under the downward air flow of 0.3 m/sec.
3 NL/min (1 electrode) air purge
Model: SJ-M030G
Model: SJ-M070G
50Hz
30Hz
4
3
2
0
0
1
50
100
150
200
250
300
3.5
2.5
1.5
0.5
Operatin
g
time (sec.)
Operating distance (mm)
8Hz
5Hz
1Hz
25
30
20
15
10
5
0
0
400
600
800 1000 1200 1400 1600
200
Char
g
ed level (V)
Time (secs)
0
0.5
1
1.5
2
2.5
3
3.5
4
0
50
100
150
200
250
300
Operating distance (mm)
Operatin
g
time (sec.)
50Hz
30Hz
0
2
4
6
8
10
12
14
16
0
200
400
600
800 1000 1200 1400 1600
Operating distance (mm)
Operatin
g
time (sec.)
8Hz
5Hz
1Hz
Measurement conditions:
The time required to eliminate the static charge of the
target from ±3000 V to ±300 V is measured.
The 150 x 150 mm plate monitor (20pF) is used.
The downward air flow of 0 m/sec
1 NL/min (1 electrode) air purge
The time required to eliminate the static charge of the
target from ±3000 V to ±300 V is measured.
The 150 x 150 mm plate monitor (20pF) is used.
The downward air flow of 0 m/sec
1 NL/min (1 electrode) air purge
Measurement conditions:
The time required to eliminate the static charge of the
target from ±5000 V to ±500 V is measured.
The 150 x 150 mm plate monitor (20pF) is used.
Under the downward air flow of 0.3 m/sec.
1 NL/min (1 electrode) air purge
The time required to eliminate the static charge of the
target from ±5000 V to ±500 V is measured.
The 150 x 150 mm plate monitor (20pF) is used.
Under the downward air flow of 0.3 m/sec.
1 NL/min (1 electrode) air purge
Model: SJ-M030V/030VC
Model: SJ-M070V/070VC
50Hz
30Hz
20
18
16
18
16
14
12
10
12
10
8
6
4
2
0
6
4
2
0
0
50
100
150
200
250
300
Char
g
ed le
1200 1200c M100 M300 User Manual 2016
v
el (V)
Time (secs)
8Hz
5Hz
1Hz
50
60
40
30
20
10
0
0
400
600
800 1000 1200 1400 1600
200
Char
g
ed level (V)
Time (secs)
Download 169 Jacques lemans Watch PDF manuals. User manuals, Jacques lemans Watch Operating guides and Service manuals. R/Watches: A subreddit for discussion of wrist watches and pocket watches. Press J to jump to the feed. Press question mark to learn the rest of the keyboard shortcuts. Archived Identify #3 Another from my father: Jacques Prevard quartz wristwatch-intro-My father passed nearly 10 years ago. My mother mentioned he had quite a few. https://giclever722.weebly.com/jacques-prevard-mens-chronograph-alarm-watch-users-manual.html.
0
2
4
6
8
10
12
14
16
18
20
0
50
100
200
250
300
Operating distance (mm)
Operatin
g
time (sec.)
50Hz
30Hz
0
10
20
30
40
50
60
0
200
400
600
800 1000 1200 1400 1600
Operating distance (mm)
Operatin
g
time (sec.)
8Hz
5Hz
1Hz
2-1
Before Installation
■ Operating area and operation time
The following graphs show typical examples of the relationship between the time required to eliminate
the target's static charge and the operating distance from the target to the static elimination bar.
Use the graphs to select the appropriate static elimination setting.
the target's static charge and the operating distance from the target to the static elimination bar.
Use the graphs to select the appropriate static elimination setting.
Model: SJ-M030/030C
At the time of frequency 50 Hz
Model: SJ-M070/070C
At the time of frequency 50 Hz
Measurement conditions:
The time required to eliminate the static charge of the
target from ±3000 V to ±300 V is measured.
The downward air flow: 0 m/sec
The air purge: 0
The time required to eliminate the static charge of the
target from ±3000 V to ±300 V is measured.
The downward air flow: 0 m/sec
The air purge: 0
NL/min
Measurement conditions:
The time required to eliminate the static charge of the
target from ±3000 V to ±300 V is measured.
The downward air flow: 0 m/sec
The air purge: 0
The time required to eliminate the static charge of the
target from ±3000 V to ±300 V is measured.
The downward air flow: 0 m/sec
The air purge: 0
NL/min
At the time of frequency 8 Hz
At the time of frequency 8 Hz
Measurement conditions:
The time required to eliminate the static charge of the
target from ±5000 V to ±500 V is measured.
The downward air flow: 0.3 m/sec
The air purge: 0
The time required to eliminate the static charge of the
target from ±5000 V to ±500 V is measured.
The downward air flow: 0.3 m/sec
The air purge: 0
NL/min
Measurement conditions:
The time required to eliminate the static charge of the
target from ±5000 V to ±500 V is measured.
The downward air flow: 0.3 m/sec
The air purge: 0
The time required to eliminate the static charge of the
target from ±5000 V to ±500 V is measured.
The downward air flow: 0.3 m/sec
The air purge: 0
NL/min
At the time of frequency 1 Hz
At the time of frequency 1 Hz
Measurement conditions:
The time required to eliminate the static charge of the
target from ±5000 V to ±500 V is measured.
The downward air flow: 0.3 m/sec
The air purge: 0
The time required to eliminate the static charge of the
target from ±5000 V to ±500 V is measured.
The downward air flow: 0.3 m/sec
The air purge: 0
NL/min
Measurement conditions:
The time required to eliminate the static charge of the
target from ±5000 V to ±500 V is measured.
The downward air flow: 0.3 m/sec
The air purge: 0
The time required to eliminate the static charge of the
target from ±5000 V to ±500 V is measured.
The downward air flow: 0.3 m/sec
The air purge: 0
NL/min
50
100
150
50
100
150mm
50
100 150mm
0.4sec
0.6sec
0.8sec
1.2sec
1.5sec
50
100
150
50
100
150mm
50
100 150mm
0.4sec
0.6sec
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1.2sec
1.5sec
150
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600
900mm
150 300 450mm
5sec
10sec
15sec
30sec
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2-1
Before Installation
Model: SJ-M030G
At the time of frequency 50 Hz
Model: SJ-M070G
At the time of frequency 50 Hz
Measurement conditions:
The time required to eliminate the static charge of the
target from ±3000 V to ±300 V is measured.
The downward air flow: 0 m/sec
The air purge:
The time required to eliminate the static charge of the
target from ±3000 V to ±300 V is measured.
The downward air flow: 0 m/sec
The air purge:
3 NL/min (1 electrode)
Measurement conditions:
The time required to eliminate the static charge of the
target from ±3000 V to ±300 V is measured.
The downward air flow: 0 m/sec
The air purge:
The time required to eliminate the static charge of the
target from ±3000 V to ±300 V is measured.
The downward air flow: 0 m/sec
The air purge:
3 NL/min (1 electrode)
At the time of frequency 8 Hz
At the time of frequency 8 Hz
Measurement conditions:
The time required to eliminate the static charge of the
target from ±5000 V to ±500 V is measured.
The downward air flow: 0.3 m/sec
The air purge:
The time required to eliminate the static charge of the
target from ±5000 V to ±500 V is measured.
The downward air flow: 0.3 m/sec
The air purge:
3 NL/min (1 electrode)
Measurement conditions:
The time required to eliminate the static charge of the
target from ±5000 V to ±500 V is measured.
The downward air flow: 0.3 m/sec
The air purge:
The time required to eliminate the static charge of the
target from ±5000 V to ±500 V is measured.
The downward air flow: 0.3 m/sec
The air purge:
3 NL/min (1 electrode)
At the time of frequency 1 Hz
At the time of frequency 1 Hz
Measurement conditions:
The time required to eliminate the static charge of the
target from ±5000 V to ±500 V is measured.
The downward air flow: 0.3 m/sec
The air purge:
The time required to eliminate the static charge of the
target from ±5000 V to ±500 V is measured.
The downward air flow: 0.3 m/sec
The air purge:
3 NL/min (1 electrode)
Measurement conditions:
The time required to eliminate the static charge of the
target from ±5000 V to ±500 V is measured.
The downward air flow: 0.3 m/sec
The air purge:
The time required to eliminate the static charge of the
target from ±5000 V to ±500 V is measured.
The downward air flow: 0.3 m/sec
The air purge:
3 NL/min (1 electrode)
50
100
150
50
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1200 1200c M100 M300 User Manual Instructions
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1200 1200c M100 M300 User Manual Diagram
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1200 1200c M100 M300 User Manual For Sale
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