Data Loggers / CR300
Limited Availability ›
This product has limited availability. It will be replaced by: CR350. Some accessories, replacement parts, or services may still be available when it is no longer available.
CR300 Datalogger
Compact Data Logger
Ideal for small applications
clima estudos de caso água estudos de caso energia estudos de caso gas flux and turbulence estudos de caso infraestrutura estudos de caso terra estudos de caso

Visão Geral

The CR300 is a multi-purpose, compact measurement and control data logger. This small, low-cost, high-value data logger offers fast communications, low power requirements, built-in USB, and excellent analog input accuracy and resolution. The CR300 can measure most hydrological, meteorological, environmental, and industrial sensors. It concentrates data, makes it available over varied networks, and delivers it using your preferred protocol. It also performs automated on-site or remote decision making for control and M2M communications. The CR300 is ideal for small applications requiring long-term, remote monitoring and control.

The CR300 includes Wi-Fi, cellular, or the following radio options for different regions:

  • CR300-RF407: US and Canada
  • CR300-RF412: Australia and New Zealand
  • CR300-RF422: Europe
  • CR300-RF427: Brazil

Note: Campbell Scientific does not recommend the CR300 for use as a PakBus router in networks with more than 50 devices. Large arrays or string variables may also reach memory limits. For such applications, a CR1000X Measurement and Control Datalogger is recommended.

Leia mais

Benefícios e Características

  • Connects directly to a computer's USB port
  • Differentiates even slight changes in data values with higher resolutions measurements (24 bit Adc)
  • Provides simple serial sensor integration and measurement with SDI-12 and/or RS-232
  • Supports full PakBus networking
  • Includes embedded web page for direct connection via web browser

imagens

CR300-RF407 front view
CR300-RF412 front view
CR300-RF427 front tilt view
CR300-RF422 front view
CR300-WIFI front view
CR300-CELL200 front view
CR300-CELL205 front view
CR300-CELL215 front view
CR300-CELL200 with Ships With items

Descrição Técnica

The CR300 is a low-powered data logger designed to measure sensors, analyze data, and store data and programs. A battery-backed clock assures accurate timekeeping. The on-board, BASIC-like programming language—common to all Campbell Scientific data loggers—supports data processing and analysis routines.

The CR300 wiring panel includes a switchable 12 V terminal, and analog grounds dispersed among six analog terminals.

Especificações

-NOTE- Additional specifications are listed in the CR300-Series Specifications Sheet.
Operating Temperature Range
  • -40° to +70°C (standard)
  • Non-condensing environment
Maximum Scan Rate 10 Hz
Case Material Powder-coated aluminum
Analog Inputs 6 single-ended or 3 differential (individually configured)
Pulse Counters 8 (P_SW, P_LL, C1, C2, and SE1 to SE4)
Voltage Excitation Terminals 2 (VX1, VX2)
Communications Ports
  • USB Micro B
  • RS-232
Switched 12 Volt 1 terminal
Digital I/O 7 terminals (C1, C2, P_SW, and SE1 to SE4) configurable for digital input and output. Includes status high/low, pulse width modulation, external interrupt, and communication functions. Exception: The SE4 terminal doesn't do external interrupt.
Input Limits -100 to +2500 mV
Analog Voltage Accuracy
  • Accuracy specifications do not include sensor or measurement noise.
  • ±(0.04% of measurement + offset) at 0° to 40°C
  • ±(0.1% of measurement + offset) at -40° to +70°C
ADC 24-bit
Power Requirements 16 to 32 Vdc for charger input (CHG) (Current limited to 0.9 A maximum for power converter or solar panel input.)
Power Requirements 10 to 18 Vdc for external batteries (BAT)
Real-Time Clock Accuracy ±1 min. per month
Internet Protocols Ethernet, PPP, RNDIS, ICMP/Ping, Auto-IP(APIPA), IPv4, IPv6, UDP, TCP, TLS (v1.2), DNS, DHCP, SLAAC, NTP, Telnet, HTTP(S), FTP(S), SMTP/TLS, POP3/TLS
Communications Protocols PakBus, Modbus, DNP3, SDI-12, TCP, UDP, and others
CPU Drive/Programs 80 MB serial flash
Data Storage 30 MB serial flash
Idle Current Drain, Average 1.5 mA (@ 12 Vdc)
Active Current Drain, Average
  • 5 mA (@ 12 Vdc for 1 Hz scan with 1 analog measurement)
  • 23 mA (@ 12 Vdc with processor always on)
Dimensions 13.97 x 7.62 x 4.56 cm (5.5 x 3.0 x 1.8 in.)
Additional clearance required for cables and leads.
Weight 242 to 250 g (0.53 to 0.55 lb) depending on communication option selected

CR300-RF407 Option

Radio Type Frequency Hopping Spread Spectrum (FHSS)
Output Power 5 to 250 mW (user-selectable)
Frequency 902 to 928 MHz (US, Canada)
RF Data Rate 200 kbps
Receive Sensitivity -101 dBm
Antenna Connector RPSMA (External antenna required; see www.campbellsci.com/order/rf407 for Campbell Scientific antennas.)
Idle Current Drain, Average 12 mA (@ 12 Vdc)
Active Current Drain, Average < 80 mA (@ 12 Vdc)

CR300-RF412 Option

Radio Type Frequency Hopping Spread Spectrum (FHSS)
Output Power 5 to 250 mW (user-selectable)
Frequency 915 to 928 MHz (Australia, New Zealand)
RF Data Rate 200 kbps
Receive Sensitivity -101 dBm
Antenna Connector RPSMA (External antenna required; see www.campbellsci.com/order/rf412 for Campbell Scientific antennas.)
Idle Current Drain, Average 12 mA (@ 12 Vdc)
Active Current Drain, Average < 80 mA (@ 12 Vdc)

CR300-RF422 Option

Radio Type 868 MHz SRD 860 with Listen Before Talk (LBT) and Automatic Frequency Agility (AFA)
Output Power 2 to 25 mW (user-selectable)
Frequency 863 to 870 MHz (European Union)
RF Data Rate 10 kbps
Receive Sensitivity -106 dBm
Antenna Connector RPSMA (External antenna required; see www.campbellsci.com/order/rf422 for Campbell Scientific antennas.)
Idle Current Drain, Average 9.5 mA
Active Current Drain, Average 20 mA

CR300-RF427 Option

Radio Type Frequency Hopping Spread Spectrum (FHSS)
Output Power 5 to 250 mW (user-selectable)
Frequency 902 to 907.5 MHz/915 to 928 MHz (Brazil)
RF Data Rate 200 kbps
Receive Sensitivity –101 dBm
Antenna Connector RPSMA (External antenna required.)
Idle Current Drain, Average 12 mA (@ 12 Vdc)
Active Current Drain, Average < 80 mA (@ 12 Vdc)

CR300-WIFI Option

Operational Modes Client or Access Point
Operating Frequency 2.4 GHz, 20 MHz bandwidth
Antenna Connector Reverse Polarity SMA (RPSMA)
Antenna pn 16005 unity gain (0 dBd), 1/2 wave whip, omnidirectional with articulating knuckle joint for vertical or horizontal orientation
Transmit Power 7 to 18 dBm (5 to 63 mW)

CR300-CELL205 Option

-NOTE- The CR300-CELL205 option is not compatible with a Verizon cellular network.
Certifications IC (Industry Canada) 10224A-201611EC21A
Cell Technologies
  • 3G (UMTS/HSPA+)
  • 4G (LTE CAT-1)
3G Frequency Bands 850, 1700/2100 (AWS), and 1900
4G Frequency Bands 700, 850, 1700/2100 (AWS-1), 1900
Antenna Connector SMA (External antenna required; see www.campbellsci.com/order/cr300 for Campbell Scientific antennas.)
SIM Interface 3FF (6 position/contacts)
Supports SIMs that require 1.8 or 3 V.
Radio Output Power
  • 23 dBm on LTE
  • 24 dBm on UMTS
  • 27 dBm on EDGE
  • 33 dBm on GSM
Radio Sensitivity Range -99.5 to 110.5 dBm (10 M)

CR300-CELL210 Option

-NOTE- The CR300-CELL210 option is only compatible with a Verizon cellular network.
Cell Technologies 4G (LTE CAT-1)
4G Frequency Bands 700, 850, 1700, 1900, 2100
Antenna Connector SMA (External antenna required; see www.campbellsci.com/order/cr300 for Campbell Scientific antennas.)
Power Consumption - Low Power Mode 5 mA
Power Consumption - Idle 35 mA
Power Consumption - Active 70 mA
SIM Interface 3FF (6 position/contacts)
Supports SIMs that require 1.8 or 3 V.
Radio Output Power 23 dBm on LTE
Radio Sensitivity Range -99.5 to 110.5 dBm (10 M)

CR300-CELL215 Option

-NOTE- The CR300-CELL215 option is intended for use in EMEA countries.
Cell Technologies
  • 2G (GSM/GPRS/EDGE)
  • 3G (UMTS/HSPA+)
  • 4G (LTE CAT-1)
2G Frequency Bands 900 and 1800 MHz
3G Frequency Bands 850, 900, and 2100 MHz
4G Frequency Bands 800, 850, 900, 1800, 2100, and 2600 MHz
Antenna Connector SMA (External antenna required; see www.campbellsci.com/order/cr300 for Campbell Scientific antennas.)
SIM Interface 3FF (6 position/contacts)
Supports SIMs that require 1.8 or 3 V.
Radio Output Power
  • 23 dBm on LTE
  • 24 dBm on UMTS
  • 27 dBm on EDGE
  • 33 dBm on GSM
Radio Sensitivity Range -99.5 to 110.5 dBm (10 M)

CR300-CELL220 Option

-NOTE- The CR300-CELL220 option is intended for use in Australia and New Zealand.
Cell Technologies
  • 3G (UMTS/HSPA+)
  • 4G (LTE CAT-1)
3G Frequency Bands
  • 850 and 2100 MHz (EC-21AUT)
  • 850, 900, 1900, and 2100 MHz (EC-21AU)
4G Frequency Bands
  • 700, 850, 1800, 2100, and 2600 MHz (EC-21AUT)
  • 700, 900, 1700, 1800, 1900, 2100, and 2600 MHz (EC-21AU)
Antenna Connector SMA (External antenna required; see www.campbellsci.com/order/cr300 for Campbell Scientific antennas.)
SIM Interface 3FF (6 position/contacts)
Supports SIMs that require 1.8 or 3 V.
Radio Output Power
  • 23 dBm on LTE
  • 24 dBm on UMTS
Radio Sensitivity Range -99.5 to 110.5 dBm (10 M)

CR300-CELL225 Option

-NOTE- The CR300-CELL225 option is intended for use in Japan.
Cell Technologies 4G (LTE CAT-1)
4G Frequency Bands 800 (lower), 800 (upper), 850+, 900, 1800, and 2100 MHz
Antenna Connector SMA (External antenna required; see www.campbellsci.com/order/cr300 for Campbell Scientific antennas.)
SIM Interface 3FF (6 position/contacts)
Supports SIMs that require 1.8 or 3 V.
Radio Output Power 23 dBm on LTE
Radio Sensitivity Range -99.5 to 110.5 dBm (10 M)

Compatibilidade

Please note: The following shows notable compatibility information. It is not a comprehensive list of all compatible products.

Software

Product Compatible Note
DevConfig Version 2.12 or higher
LoggerLink Version 1.5 or higher
LoggerNet Version 4.4 or higher
LoggerNet Mobile Connect Version 1.1 or higher
PC200W (retired) Version 4.4 or higher
PC400 Version 4.4 or higher
RTDAQ
Short Cut Version 3.2 or higher

Additional Compatibility Information

Sensors

With several channel types, the CR300 is compatible with nearly every available sensor. This includes analog output voltage (0 to 2.5 V) and current (0 to 20 mA or 4 to 20 mA) sensors, thermistors, and RTDs to name a few. It is also compatible with pulse or frequency output sensors such as anemometers, rain gauges, and flow meters. CR300 dataloggers are not capable of applying reverse excitation, and they cannot be used with some conductivity or soil matric potential sensors.

SDI-12, Modbus, and other serial sensors are supported with the RS-232 port and C1 and C2 as a Tx/Rx pair. The CR300 does not directly support RS-485 sensors.

Measurement & Control Peripherals

The CR300 is compatible with low current and voltage solid-state relays but not with SDM or CDM devices.

Software

The CR300 series is compatible with CRBasic (version 3.6 or higher).

Enclosures

An ENC10/12 or ENC12/14 enclosure is adequate for most CR300-based systems.

Communications

The CR300 can communicate with a PC directly via its USB port. Compatible telemetry devices include our RS-485 converters, digital cellular gateways, RF telemetry, and satellite transmitters (HDR GOES, Argos, Meteosat, Iridium, and Inmarsat). Data can be viewed on an iOS or Android device (requires our free LoggerLink app), CD295 DataView II Display, or other third-party devices.

Data Logger Option Communications Type Integrated Communications Are Compatible with

CR300-WIFI

2.4 GHz, 20 MHz bandwidth

Most other Wi-Fi devices, such as the CR310-WIFI, CR6-WIFI, NL240

CR300-RF407

902 to 928 MHz Frequency Hopping Spread Spectrum

RF407, CR6-RF407, CRVW3-RF407

CR300-RF412

915 to 928 MHz Frequency Hopping Spread Spectrum

RF412, CR6-RF412, CRVW3-RF412

CR300-RF422

868 MHz SRD860 LBT+AFA

RF422, CR6-RF422, CRVW3-RF422

CR300-CELL

2G Frequency Bands 850, 900, 1800, 1900

3G Frequency Bands 800, 850, 900, 1900, 2100

GSM/GPRS/EDGE (2G)

UMTS/HSPA+ (3G)

Power

The CR300 uses an external power source and has a built-in charger/regulator. Intelligent power sourcing autoselects the highest voltage from three input sources (CHG, BAT, or USB) to operate in one of the following four modes:

  • UPS (recommended) - A 16 to 32 Vdc source, solar panel (SP10, SP20), or power converter (29796) is used to charge a 12 Vdc battery, such as our BP7 or BP12.
  • 12 Vdc battery or other reliable 12 Vdc source
  • Charge only - DC power supply (16 to 32 Vdc)
  • USB - Powered over 5 Vdc USB port for setup, programming, and testing (will not charge battery or boost USB power to provide 12 Vdc to the switched battery terminal SW12)

Videos & Tutoriais

Downloads

CR300 Series Wifi OS Update v.1.7.12 (1.97 MB) 13-05-2022

Manufacturer chipset maintenance update.

Visualize o Histórico de Revisões

Data Logger Wiring Excel Template (1 KB) 26-03-2024

This is a data logger wiring diagram spreadsheet template that accompanies the Wiring Diagram Video. The spreadsheet includes templates for  CR6, CR1000X, CR300, CR310, and CR350 data loggers. The file is an Excel template and works best with Microsoft Excel. 

Perguntas Frequentes Relacionadas

Number of FAQs related to CR300: 4

Expandir todosRecolher todos

  1. The connector is designed to accept wire sizes from 14 to 28 AWG. Note: If you are using ferruled wire ends, reduce the maximum size to 18 AWG.

  2. Verizon recommends using MIMO antennas because their 4G towers use multiple antennas for communication. If your modem has two separate antennas or a MIMO antenna (which is two antennas bundled in the same package), you may benefit from reduced signal reflections, more reliable data reception, and an increase in bandwidth.

    While Verizon’s language indicates that MIMO antennas are required because they want to offer the best service possible to their users, technically, a MIMO antenna is not required for any of our products, including the CR300-CELL210 (which does not have a diversity port) and the RV50X and CELL210 (which do have a diversity port to accommodate MIMO antennas). Our users have found that a single antenna works well without noticeable issues.

  3. No. The CR300 datalogger does not have the ability to do autobaud.

Estudos de Caso

Portugal: Formula 1 Weather Monitoring
Overview In 2020, due to the COVID-19 pandemic, the Formula 1 World Championship calendar was subject......Leia mais
Australia: Coastal Water-Quality Monitoring
The Port of Townsville Limited (POTL) is undertaking the Channel Upgrade (CU) project at a......Leia mais
South Africa: Transforming a Polluted River
The Jukskei River is one of the largest rivers in Johannesburg, South Africa. The river......Leia mais
Wyoming: Vibrating Wire Technology for Dam Monitoring
Located beneath a steep canyon near Douglas, Wyoming sits LaPrele Dam, privately owned by LaPrele......Leia mais
Argentina: Measuring Mountain Weather Conditions
Introduction The Andes Mountains of Argentina are home to a rich and diverse group of organic......Leia mais
Florida: Road-Base Monitoring
Everglades National Park is the largest tropical wilderness in the United States and was created......Leia mais
Canada: Structural Health Monitoring of an Overpass
GKM Consultants was contracted by a nationally leading engineering firm to develop, commission, and install......Leia mais
Ontario: Road Weather Network
The Ministry of Transportation Ontario (MTO) is responsible for monitoring and managing the province’s road......Leia mais