Total: $8.290,00
ATLAS-F – A rugged, high-performance seismic recorder featuring 32-bit ADCs, >136dB dynamic range, up to 1000 sps sampling, and 1TB dual-zone memory. With hot-swappable batteries (40-hour backup), GNSS synchronization, LAN, WiFi, 4G connectivity, and IP67 protection, it ensures uninterrupted, precise seismic monitoring in any environment.
$4.326,00 – $6.331,00
The ATLAS-F is an advanced variant of the ATLAS digitizer, developed in response to customer needs for greater accessibility and extended field operation. Compared to the standard ATLAS, it features:
32-bit Delta-Sigma ADCs – High-resolution, synchronized data acquisition.
Dynamic Range > 136dB @ 100 sps – Superior signal clarity.
Adjustable Sampling Rates – 1 to 1000 sps per channel.
1TB Storage Capacity – Dual-zone system:
MiniSEED Data Format – Ensures compatibility with standard seismic workflows. GNSS Time Synchronization – Absolute time precision across multiple units. Local & Remote Control – Via LAN, WiFi, or optional 4G modem.
Micro SIM Access – Conveniently located for easy user access.
SeedLink Protocol Support – Compatible with Seiscomp3, Antelope, Earthworm, Geopsy, and Seisgram2k.
40-Hour Backup Battery – Ensures uninterrupted recording during power loss.
9-28V DC Input – Supports AC power, solar panel connection, and external battery systems.
4G Modem & Sensor Power Backup – Maintains operation for network and sensor connectivity.
CNC-Milled Anodized Aluminum Housing (INOX AISI316 Option) – Shockproof, vibration-resistant, and IP67 weatherproof for extreme environments.
32-bit ADC & >136dB Dynamic Range for high-precision data acquisition.
1-1000 sps Adjustable Sampling Rates for flexibility in monitoring applications.
LAN, WiFi & 4G Modem for seamless data transmission.
GNSS Synchronization for accurate timing across networks.
Integrated UPS with 40-Hour Battery Backup for uninterrupted operation.
MiniSEED Format Compatibility with industry-leading seismic software.
The ATLAS-F is designed for seismologists and engineers requiring robust, portable, and continuous seismic monitoring in any environment.
| Weight | N/A |
|---|---|
| Dimensions | N/A |
| TYPE | ATLAS-F (3CH), ATLAS-F (6CH), ATLAS-F (9CH) |
ATLAS-F is designed to suit various applications and provide a solution to the users needs in the field.
ATLAS-F can be used with an accelerometric or a velocimetric sensor.
ATLAS-F can be configured in-situ using WIFI or LAN cable.
If ATLAS-F is used for permanent monitoring, it can be reached remotely using the built-in 4G modem or using LAN connection in order to link it, for example, to an ADSL modem.
ATLAS-F is well suited to the monitoring of large structures where multiple sensor information is required.
In such applications sensors are wired up to ATLAS-F and with each device you can acquire up to 9 synchronous channels.
If more channels are needed, connection to an other ATLAS-F device and synchronization with the MASTER is possible. ATLAS-F can be reached locally via WiFi or remotely using the buit-in HSPA modem or by LAN.
ATLAS-F is often used in the filed of structural monitoring for calculating the specific resonant frequency of the buildings.
Lunitek has developed ad-hoc firmware based on FFT for real time evaluation of the building’s state of health.
In a typical geophysical monitoring station ATLAS-F is used with a low noise force balance triaxial accelerometer and with a triaxial velocimeter both mounted on a concrete slab.
Both sensors are digitized with high dynamics, high accuracy ADC.
ATLAS-F can be equipped with auxiliary analog inputs in order to monitor enviromental data (temperature or humidity) or with digital input to monitor external events (vault open/closed) or even with output driving capability to comunicate exceeding thresholds (alarms).
ATLAS-F models available
Answer: Yes, ATLAS may do both tasks in parallel. For event-triggering, threshold exceedance instead of STA/LTA is recommended for accelerometers.
Answer: The telemetry works through SeedLINK protocol, which holds data in its ring buffer whose size is by default 1GB (expandable): it corresponds to some days of continuous recording. When the telemetry goes down, the client may request data from the last packet received before the break and then recovered all the missing data. This is automatically handled by the SeedLINK client. Whether the telemetry is up or down, the device always stores data in a separate folder and the telemetry (SeedLINK) server detects it, and copies data in its ring buffer, ready to be sent on request.
Answer: This could be done in two ways. For example, if the 2 or more ATLAS digitizers are in the same LAN segment, either ATLAS could reach the trigger status and trigger all the other units with a broadcast message. If they are installed in different LAN segments (for example there is a gateway in the middle), this won’t work and we should install an additional module on a Linux machine that catches the alarms from the devices and implements a trigger voting algorithm.
Answer: MiniSEED, just like the continuous recording. But if we install the QUAKELOGIC Event Watchdog software to the remote server, the trigger files may be sent automatically to a remote server and exported in ASCII format, or the server may extract the event data from the continuous recording and perform the export. For example, this would be the best way to interact with a LABVIEW application.
Answer: The ATLAS digitizer can communicate with the remote server (Linux Machine) through MQTT and SeedLINK. The Linux Machine takes care of storing all the continuous recordings from the ATLAS devices and receives the trigger data through MQTT or just extracts it from the continuous buffer. At this point, data is still available in MiniSEED. Once we have a time window for an event, we may export it in ASCII.
Answer: The ATLAS digitizer can be powered by a 12 V solar panel (>100 W). The system requires a solar panel, 12V backup battery and controller unit. QuakeLogic can provide all these auxiliary hardware including on-site installation.
The ATLAS-F is an advanced variant of the ATLAS digitizer, developed in response to customer needs for greater accessibility and extended field operation. Compared to the standard ATLAS, it features:
32-bit Delta-Sigma ADCs – High-resolution, synchronized data acquisition.
Dynamic Range > 136dB @ 100 sps – Superior signal clarity.
Adjustable Sampling Rates – 1 to 1000 sps per channel.
1TB Storage Capacity – Dual-zone system:
MiniSEED Data Format – Ensures compatibility with standard seismic workflows. GNSS Time Synchronization – Absolute time precision across multiple units. Local & Remote Control – Via LAN, WiFi, or optional 4G modem.
Micro SIM Access – Conveniently located for easy user access.
SeedLink Protocol Support – Compatible with Seiscomp3, Antelope, Earthworm, Geopsy, and Seisgram2k.
40-Hour Backup Battery – Ensures uninterrupted recording during power loss.
9-28V DC Input – Supports AC power, solar panel connection, and external battery systems.
4G Modem & Sensor Power Backup – Maintains operation for network and sensor connectivity.
CNC-Milled Anodized Aluminum Housing (INOX AISI316 Option) – Shockproof, vibration-resistant, and IP67 weatherproof for extreme environments.
32-bit ADC & >136dB Dynamic Range for high-precision data acquisition.
1-1000 sps Adjustable Sampling Rates for flexibility in monitoring applications.
LAN, WiFi & 4G Modem for seamless data transmission.
GNSS Synchronization for accurate timing across networks.
Integrated UPS with 40-Hour Battery Backup for uninterrupted operation.
MiniSEED Format Compatibility with industry-leading seismic software.
The ATLAS-F is designed for seismologists and engineers requiring robust, portable, and continuous seismic monitoring in any environment.
| Weight | N/A |
|---|---|
| Dimensions | N/A |
| TYPE | ATLAS-F (3CH), ATLAS-F (6CH), ATLAS-F (9CH) |
ATLAS-F is designed to suit various applications and provide a solution to the users needs in the field.
ATLAS-F can be used with an accelerometric or a velocimetric sensor.
ATLAS-F can be configured in-situ using WIFI or LAN cable.
If ATLAS-F is used for permanent monitoring, it can be reached remotely using the built-in 4G modem or using LAN connection in order to link it, for example, to an ADSL modem.
ATLAS-F is well suited to the monitoring of large structures where multiple sensor information is required.
In such applications sensors are wired up to ATLAS-F and with each device you can acquire up to 9 synchronous channels.
If more channels are needed, connection to an other ATLAS-F device and synchronization with the MASTER is possible. ATLAS-F can be reached locally via WiFi or remotely using the buit-in HSPA modem or by LAN.
ATLAS-F is often used in the filed of structural monitoring for calculating the specific resonant frequency of the buildings.
Lunitek has developed ad-hoc firmware based on FFT for real time evaluation of the building’s state of health.
In a typical geophysical monitoring station ATLAS-F is used with a low noise force balance triaxial accelerometer and with a triaxial velocimeter both mounted on a concrete slab.
Both sensors are digitized with high dynamics, high accuracy ADC.
ATLAS-F can be equipped with auxiliary analog inputs in order to monitor enviromental data (temperature or humidity) or with digital input to monitor external events (vault open/closed) or even with output driving capability to comunicate exceeding thresholds (alarms).
ATLAS-F models available
Answer: Yes, ATLAS may do both tasks in parallel. For event-triggering, threshold exceedance instead of STA/LTA is recommended for accelerometers.
Answer: The telemetry works through SeedLINK protocol, which holds data in its ring buffer whose size is by default 1GB (expandable): it corresponds to some days of continuous recording. When the telemetry goes down, the client may request data from the last packet received before the break and then recovered all the missing data. This is automatically handled by the SeedLINK client. Whether the telemetry is up or down, the device always stores data in a separate folder and the telemetry (SeedLINK) server detects it, and copies data in its ring buffer, ready to be sent on request.
Answer: This could be done in two ways. For example, if the 2 or more ATLAS digitizers are in the same LAN segment, either ATLAS could reach the trigger status and trigger all the other units with a broadcast message. If they are installed in different LAN segments (for example there is a gateway in the middle), this won’t work and we should install an additional module on a Linux machine that catches the alarms from the devices and implements a trigger voting algorithm.
Answer: MiniSEED, just like the continuous recording. But if we install the QUAKELOGIC Event Watchdog software to the remote server, the trigger files may be sent automatically to a remote server and exported in ASCII format, or the server may extract the event data from the continuous recording and perform the export. For example, this would be the best way to interact with a LABVIEW application.
Answer: The ATLAS digitizer can communicate with the remote server (Linux Machine) through MQTT and SeedLINK. The Linux Machine takes care of storing all the continuous recordings from the ATLAS devices and receives the trigger data through MQTT or just extracts it from the continuous buffer. At this point, data is still available in MiniSEED. Once we have a time window for an event, we may export it in ASCII.
Answer: The ATLAS digitizer can be powered by a 12 V solar panel (>100 W). The system requires a solar panel, 12V backup battery and controller unit. QuakeLogic can provide all these auxiliary hardware including on-site installation.
