The CR1000X is our flagship datalogger that provides measurement and control for a wide variety of applications. Its reliability and ruggedness make it an excellent choice for remote environmental applications, including weather stations, mesonet systems, wind profiling, air quality monitoring, hydrological systems, water quality monitoring, and hydrometeorological stations.
The CR1000X is a low-powered device that measures sensors, drives direct communication and telecommunications, analyzes data, controls external devices, and stores data and programs in onboard, nonvolatile storage. The electronics are RF-shielded by a unique sealed, stainless-steel canister. A battery-backed clock assures accurate timekeeping. The onboard, BASIC-like programming language, common to all contemporary Campbell Scientific dataloggers, supports data processing and analysis routines.Read More
The CR1000X is a low-powered device designed to measure sensors, drive direct communication and telecommunications, analyze data, control external devices, and store data and programs in on-board, non-volatile storage. The electronics are RF-shielded and glitch-protected by a unique sealed, stainless-steel canister. A battery-backed clock assures accurate timekeeping. The on-board, BASIC-like programming language—common to all Campbell Scientific dataloggers—supports data processing and analysis routines.
The CR1000X wiring panel includes two switchable 12 V terminals, analog grounds dispersed among 16 analog terminals, and unpluggable terminal blocks for quick deployment.
|-NOTE-||Additional specifications are listed in the CR1000X Specifications Sheet.|
|Operating Temperature Range||
|Analog Inputs||16 single-ended or 8 differential (individually configured)|
|Pulse Counters||10 (P1 to P2 and C1 to C8)|
|Voltage Excitation Terminals||4|
|Communications/Data Storage Ports||
|Switched 12 Volt||2|
|Digital I/O||8 terminals (C1 to C8) configurable for digital input and output. Includes status high/low, pulse width modulation, external interrupt, edge timing, switch closure pulse counting, high-frequency pulse counting, UART, RS-232, RS-485, SDM, SDI-12, I2C, and SPI function. Terminals are configurable in pairs for 5 V or 3.3 V logic for some functions.|
|Input Limits||±5 V|
|Analog Voltage Accuracy||
|Power Requirements||10 to 16 Vdc|
|Real-Time Clock Accuracy||±3 min. per year (Optional GPS correction to 10 µs)|
|Internet Protocols||Ethernet, PPP, CS I/O IP, RNDIS, ICMP/Ping, Auto-IP(APIPA), IPv4, IPv6, UDP, TCP, TLS, DNS, DHCP, SLAAC, SNMPv3, NTP, Telnet, HTTP(S), FTP(S), SMTP/TLS, POP3/TLS|
|Warranty||3 years (against defects in materials and workmanship)|
23.8 x 10.1 x 6.2 cm (9.36 x 3.98 x 2.42 in.)
Additional clearance required for cables and leads.
|Weight||0.86 kg (1.9 lb)|
|Battery-backed SRAM for CPU Usage & Final Storage||4 MB|
4 MB SRAM + 72 MB flash
Storage expansion of up to 8 GB with removable microSD flash memory card.
Average Current Drain @ 12 Vdc
|Idle||< 1 mA|
With several terminal types, the CR1000X is compatible with nearly every available sensor, including analog (both voltage and current), thermocouples, serial, SDI-12, pulse, and frequency sensors.
The CR1000X is compatible with all our CDMs, multiplexers, vibrating-wire interfaces, terminal input modules, and relays.
The CR1000X communicates with a PC via direct USB port, 10/100baseT Ethernet port, multidrop modems, short-haul modems, phone modems (land line, digital cellular, and voice-synthesized), RF telemetry, and satellite transmitters (HDR GOES, Argos, Meteosat, Iridium, and Inmarsat).
Data can be viewed on the CR1000KD Keyboard Display, the CD100 Mountable Display with Keyboard, an iOS or Android device (requires our free LoggerLink app), CD295 DataView II Display, or other third-party devices.
The CR1000X and its power supply can be housed in any of our standard enclosures.
Any external 12 Vdc source can power the CR1000X datalogger. Campbell Scientific power supplies commonly used with the CR1000X are the BPALK, PS150, and PS200.
Campbell Scientific proprietary software is required to program, configure, and communicate with the CR1000X datalogger. Various software options are available to meet a breadth of application needs. At a minimum, Short Cut and PC200W are needed. Consult with a Campbell Scientific Support and Implementation Engineer to determine the best software option.
CR1000X compatible software includes:
This is the first release of the CR1000X OS version 1.0 and has been posted for those running any pre-released versions of the CR1000X OS. Included in this executable is the CR1000X OS (CR1000XStd.01.obj) and CR1000X support files for the CRBasic Editor (v3.7 and greater). Support for the CR1000X was added in version 4.5 of LoggerNet, PC400 and PC200W. Running this executable will update the files in the appropriate directories on your PC.
The CPI Calculator is a downloadable Microsoft Excel spreadsheet used to estimate the usage and capacity of a CPI network. The calculator provides an overview on CPI devices including the CDM-A108, CDM-A116, CDM-VW300, CDM-VW305, and the CSAT3B. The calculator can also estimate the measurement speed of the CDM-A108 and CDM-A116 based on the number of channels and measurement parameters.
The CPI Calculator is an estimation tool and will help you better understand and design CPI networks by considering the following:
Number of FAQs related to CR1000X: 6
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The CR1000X is not compatible with PC208W.
Return the CR1000X to Campbell Scientific for repair. For assistance obtaining a Returned Material Authorization (RMA), follow the instructions on the Repair and Calibration page.
The CR1000 and CR1000X will be sold concurrently for no less than two years. We anticipate the CR1000 will be retired in December of 2019 and will be supported until December of 2029.
Although there are significant additions to the CR1000X program instructions that are not available in the CR1000, in most cases, you can load your program written for the CR1000 to a CR1000X with minor instruction changes. The most notable of the minor instruction changes is in the analog measurement instructions. For more information, see the "Replacing Your CR1000 Datalogger with a CR1000X: What You Should Know" blog article.
When idle, the CR1000, CR6, and CR1000X consume less than 1 mA @ 12Vdc. Similar to the CR6, the CR1000X has a much faster processor that requires more power when up and running. As such, there will be higher current draws during active measurements, serial communications, or when plugged into a PC via USB or Ethernet.
It may be helpful to think of the CR6 and CR1000X as being built on the same "platform."