Editing Data logger (section)

== Data logging versus data acquisition ==
The terms data logging and [[data acquisition]] are often used interchangeably. However, in a historical context, they are quite different. A data logger is a data acquisition system, but a data acquisition system is not necessarily a data logger.

* Data loggers typically have slower [[Sample rate|sample rates]]. A maximum sample rate of 1 [[Hertz|Hz]] may be considered to be very fast for a data logger, yet very slow for a typical data acquisition system.
* Data loggers are implicitly stand-alone devices, while typical data acquisition systems must remain tethered to a computer to acquire data. This stand-alone aspect of data loggers implies onboard memory that is used to store acquired data. Sometimes this memory is very large to accommodate many days, or even months, of unattended recording. This memory may be battery-backed [[static random access memory]], [[flash memory]], or [[EEPROM]]. Earlier data loggers used [[magnetic tape]], punched paper tape, or directly viewable records such as "strip [[Chart recorder|chart recorders]]".
* Given the extended recording times of data loggers, they typically feature a mechanism to record the date and time in a [[timestamp]] to ensure that each recorded data value is associated with a date and time of acquisition to produce a [[sequence of events]]. As such, data loggers typically employ built-in [[Real-time clock|real-time clocks]] whose published drift can be an important consideration when choosing between data loggers.
* Data loggers range from simple single-channel input to complex multi-channel instruments. Typically, the simpler the device the less programming flexibility. Some more sophisticated instruments allow for cross-channel computations and alarms based on predetermined conditions. The newest data loggers can serve web pages, allowing numerous people to monitor a system remotely.
* The unattended and remote nature of many data logger applications implies the need for some applications to operate from a [[Direct current|DC]] power source, such as a [[Battery (electricity)|battery]]. Solar power may be used to supplement these power sources. These constraints have generally led to ensuring that the devices they market are extremely power efficient relative to computers. In many cases, they are required to operate in harsh environmental conditions where computers will not function reliably.
* This unattended nature also dictates that data loggers must be extremely reliable. Since they may operate for long periods nonstop with little or no human supervision and may be installed in harsh or remote locations, it is imperative that so long as they have power, they will not fail to log data for any reason. Manufacturers go to great lengths to ensure that the devices can be depended on in these applications. As such data loggers are almost completely immune to the problems that might affect a general-purpose computer in the same application, such as program crashes and the instability of some operating systems.