A Quick Comparison of the CR1000X, CR1000, and CR6 Dataloggers

de Timothy Jeppsen | Atualizada: 08/17/2017 | Comentários: 0

Tópicos de blog

Pesquisar o Blog

Inscrever-se para o Blog

Receber e-mail quando um novo artigo é publicado. Escolha os temas de seu interesse.

Insira o seu endereço de email:

Sugerir um artigo

Existe um tópico que você gostaria de saber mais à respeito? Nos informe.

Leave this field empty

CR1000X logo

We recently released the CR1000X Measurement and Control Datalogger, and you may be wondering how it compares with our widely used CR1000 datalogger and our innovative CR6 datalogger. If you’re in the market for a new datalogger, how do you know which one is best suited to your application? In this blog article, we’ll look at some differentiators that may help you with your purchasing decision.

How will you use your datalogger?

One method to decide among the three dataloggers is to consider your basic measurement and control needs and how you will use your datalogger. Although these three dataloggers share common functionality traits so that they can all be used in most applications, perhaps one of the scenarios described below matches with your situation.


There is no reason to continue to purchase the CR1000. The CR1000 has been an excellent choice in dataloggers; however, the CR1000X can do everything the CR1000 can—only better! The CR1000X will even fit seamlessly into an existing network of CR1000s.


If your application requires between four and 10 sensors (typical of full meteorological, agricultural, and hydrological/water quality monitoring systems), the CR1000X will be your ideal choice. The CR1000X includes dedicated analog and digital ports—an excellent combination when your application requires a varied selection of sensors to be measured and/or devices to be controlled. These features are also beneficial when your application will remain unchanged for long periods—years or decades measuring the same parameters. The CR1000X also introduces the highest level of accuracy in analog measurements of any of our dataloggers.

The CR1000X may be your best solution in any of these scenarios:

  • You have a traditional monitoring station intended for long-term, continuous operation.
  • High accuracy is critical for your analog sensors.
  • You are currently using CR1000 dataloggers.


CR6 datalogger

Although many of the communication functions and specifications of the CR6 are the same as the CR1000X, the unique universal terminals of the CR6 can be configured to operate as digital, analog, or vibrating-wire inputs. These universal terminals make the CR6 an ideal datalogger for repurposing to meet the changing needs of your multiple applications, such as for research projects that change frequently. Also, because of the universal terminals, up to six low-level ac ports can be configured. This makes an ideal configuration when you are measuring multiple sensors that generate low-level ac (that is, wind speed sensors, water flow sensors, etc.). If your application requires a datalogger with integrated radio communications, the CR6 may provide the solution you’re looking for. Unlike the CR1000X, the CR6 provides options with Wi-Fi or spread-spectrum radios built into the datalogger, eliminating the need for an external radio. The CR6 is also an ideal datalogger when you are using up to six vibrating-wire sensors, which are used extensively in structural monitoring.

The CR6 may be your best solution in any of these scenarios:

  • Your system is used with vibrating-wire sensors.
  • You frequently change the sensor types you use in your system.
  • You require an integrated radio system. 

Tip: You can expand the functionality of all three dataloggers using input/output expansion modules, communication peripherals, and memory expansion devices.  

Which specifications are most important to you?

Another method to make your selection is to review the specifications of the three dataloggers to determine which one most closely meets your application’s requirements. The chart below highlights some of the specifications for the three dataloggers:

CR1000 CR1000X CR6
Processor 7 MHz,
10 ms execution
100 MHz,
1 ms execution
100 MHz,
1 ms execution
Power 9.6 to 16 Vdc

< 1 mA @12 Vdc

1 Hz sample:
1 mA @ 12 Vdc

1 Hz sample + RS-232:
16 mA @ 12 Vdc
10 to 16 Vdc

< 1 mA @ 12 Vdc

1 Hz sample:
1 mA @ 12 Vdc

1 Hz sample + RS-232:
28 mA @ 12 Vdc
10 to 16 Vdc

< 1 mA @ 12 Vdc

1 Hz sample:
3 mA @ 12 Vdc

1 Hz sample + RS-232:
28 mA @ 12 Vdc
Memory 4 MB SRAM

512 KB CPU

Up to 4 MB of internal data storage


Up to 72 MB of internal data storage


Up to 4 MB of internal data storage
Analog 13-bit resolution

16 single-ended
(8 differential) analog channels
24-bit ADC

16 single-ended
(8 differential) analog channels
24-bit ADC

Up to 12 single-ended
(6 differential) analog channels
Vibrating Wire No No Yes
0 to 20 mA No RG1, RG2 No
Pulse P1 and P2, C1 to C8 P1 and P2, C1 to C8

C1 to C8 configurable in pairs, pull-up or pull-down resistor
C1 to C4, U1 to U12

Configurable in pairs, pull-up or pull-down resistor
Vx Vx1 to Vx3

Switched power
Vx1 to Vx4

Switched or continuous power at 3.3 V / 5 V (regulated)
C1 to C4, U1 to U12

Switched or continuous power at 3.3 V / 5 V
5 V Dedicated 1 1 0
12 V 2 1 1
SW12V 1 2 2
C Ports 8 8 4
RS-232 1 (RS-232) 3 (C5, C7, RS-232/CPI) 3 (C1, C3, RS-232/CPI)
RS-485 No 2 (C5, C7) 2 (C1, C3)
CS I/O Yes Yes Yes
CPI No Yes Yes
Ethernet No Yes Yes
Memory Flash Card  No 8 GB (purchased separately) 8 GB (purchased separately)
USB No Yes Yes


CR1000, CR1000X, and CR6 dataloggers

Selecting a datalogger is an individual decision that is dependent upon the needs of your organization and your application. We hope the information in this article has helped you determine your most suitable datalogger—or at least, has gotten you started in the selection process. If you have any questions about how the CR1000X, CR1000, and CR6 compare, please post them below.

Compartilhe este artigo

Sobre o autor

timothy jeppsen Timothy is the Marketing Communications Manager at Campbell Scientific, Inc. He began his Campbell career as an Applications Engineer specializing in aquaculture applications and has also held positions as a sales engineer, manager of the Water Resources Group, and Marketing Product Manager for data loggers and communications products. Timothy received his bachelor’s degree in marketing from Utah State University and his master’s degree in quantitative genetics from Auburn University.

Veja todos os artigos deste autor.


Please log in or register to comment.