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Comparison Drager Alcotest 7510 vs Drager Alcotest 6820

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Drager Alcotest 7510
Drager Alcotest 6820
Drager Alcotest 7510Drager Alcotest 6820
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GPS module for determining the location of the test. Recognition of alcohol residue in the oral cavity.
Blowingwith mouthpiecewith mouthpiece
Sensorelectrochemicalelectrochemical
Measuring range0 – 3 ‰0 — 5 ‰
Max. error0.04 ‰
Warm-up time6 с10 с
Blow time2 с
Test time6 с3 с
Tests counter
Last measurements memory
Printer connection
Display backlight
Power source4xAA2xAA
Operating temperature-10 °C ~ +50 °C-5 °C ~ +50 °C
Size183х87х44 mm140x80х35 mm
Weight430 g195 g
Added to E-Catalogapril 2021july 2019

Measuring range

The measurement range provided by the breathalyzer. It is indicated from the minimum level of alcohol in the blood that the device is able to detect, to the maximum.

It is worth choosing according to this parameter, taking into account the purposes for which it is planned to use the device, what levels of alcohol they will have to measure. For your convenience, you can use the following table:

— Up to 0.3 ‰ — asymptomatic degree of intoxication. There are no obvious signs of alcohol consumption, it is impossible to detect them without special means. In countries where there is no “zero per mille” rule for drivers, the blood alcohol level allowed for driving is usually within these limits (most often it is 0.2 ‰).

— 0.3 – 0.6 ‰ — a slight degree of intoxication. Some violation of concentration and coordination, disinhibition, talkativeness, the appearance of relaxation and euphoria.

— 0.6 – 1 ‰ — the average degree of intoxication. Dullness of sensations, weakening of self-control, loss of logic in reasoning, memory lapses after sobering up are possible.

1 – 2 ‰ — the degree of intoxication is above average. Speech becomes almost incomprehensible, reflexes and coordination are severely impaired, mood swings and manifestations of uncontrolled aggression are possible.

2 – 3 ‰ — a significant degree of intoxication: confusion and loss o...f consciousness, severe motor impairment.

3 – 4 ‰ — a strong degree of intoxication: a violation of the heartbeat and breathing, uncontrolled vomiting and urination, the inability to stand and move straight.

— above 4 ‰ — a critical degree of intoxication, a fatal outcome is likely.

Note that for some breathalyzers, the lower limit of the measurement range is indicated as "0". You can estimate the lowest concentration of alcohol that such a device is guaranteed to be able to detect using the maximum error (see below): the lower limit of the range will approximately correspond to the claimed error.

Max. error

The maximum measurement error provided by the device during operation, in other words, the largest deviation from the actual result that may occur during measurements. For example, if the error is claimed at the level of 0.1 ‰, and the measurement result is 0.5 ‰, then the actual amount of alcohol in the blood will be from 0.4 ‰ to 0.6 ‰.

In the most advanced models, this parameter is 0.05 ‰ or less ; values of 0.06 – 0.1 ‰ correspond to the average level, more than 0.1 ‰ — low accuracy. The lower the error, the more accurate the device, the more reliable its readings. On the other hand, high accuracy has a corresponding effect on the price. Therefore, when choosing according to this criterion, it is worth considering what exactly a breathalyzer is needed for and how important measurement accuracy is for it. In particular, for devices used by the traffic police, there are accuracy requirements that are expressly specified in regulatory documents.

Warm-up time

The warm-up time of the breathalyzer to the working state, in other words, the time that must pass after switching on or after the end of the previous measurement before the device can be used.

The fastest modern breathalyzers warm up in 5 – 6 seconds, time up to 20 seconds is considered quite good; in slower models, this time can be up to a minute. At the same time, it makes sense to specifically look for a device with a short warm-up time only in cases where it is needed for streaming checks and high speed is crucial. And if the device is purchased for individual use with measurements a maximum of 2 – 3 times a day — you can not pay much attention to this parameter: waiting even a few tens of seconds is most often not a problem.

Blow time

The blowing time is the shortest time during which you need to blow into the device for effective measurement. The shorter this time, the more sensitive and advanced the breathalyzer is, the simpler the measurement procedure and the less time it will take; the fastest modern appliances purge in 3 seconds or less. On the other hand, a short blowing time affects the cost. Therefore, if the device is not planned to be used for mass streaming checks, this parameter can be ignored.

Test time

The time it takes the instrument to test — in other words, the time that elapses between the end of the purge and the display of the final result. This is one of the parameters that determine the performance of the device (along with the warm-up time and purge time, see above). At the same time, we note that it makes sense to specifically look for a device with a short testing time ( 10 s or less) mainly for mass flow checks, when “every second counts” — for example, for pre-trip control of drivers at a large auto enterprise. If we are talking about episodic measurements — for example, individual self-control after "celebrations" once or twice a month — you can get by with a device with a low speed.

Power source

Type of power supplied by the device. The power supply methods used in modern breathalyzers can be divided into two types — replaceable cells of a standard size and original batteries.

The first option is convenient because dead batteries can be quickly replaced with fresh ones — the main thing is to have a supply on hand. At the same time, replaceable elements can be made both disposable and rechargeable, in the form of batteries. On the other hand, batteries usually have to be purchased separately — and either regularly buy more disposable cells, or spend a significant amount on batteries and a charger. Here are the main sizes of replaceable elements found in modern breathalyzers:

— AAA. Cylindrical-shaped batteries, known as "mini finger" or "little finger" batteries. A fairly popular option, especially among entry-level and mid-level breathalyzers: they are small in size, and although the capacity of such batteries is small, it is quite enough for the mentioned devices.

— AA. Classic, known to many "finger" batteries. For a number of reasons (in particular, due to the larger size), they are used in breathalyzers less frequently than the “little finger” AAA.

— PP3. Batteries of a characteristic rectangular shape with a pair of contacts on one of the ends. They are distinguished by a rather high voltage — 9 V. They are used mainly in professional devices with an abundance of additional functions that require a large amount of energy.<...br>
As for the original batteries, such batteries often outperform replacement batteries in terms of performance and do not require additional costs: the battery is purchased immediately with the device and in the future it is enough to periodically recharge it. On the other hand, charging requires time and a power source; it is usually impossible to quickly replace a dead battery. And the mentioned performance advantages are rarely decisive. As a result, this variant is relatively rare in breathalyzers.

Operating temperature

The range of air temperatures at which the breathalyzer is able to work correctly. Note that if the device goes beyond this range, the device will not necessarily fail, but there is no need to talk about the accuracy of measurements in such a situation. This parameter is especially important for models with semiconductor sensors (see "Sensor") — the correct operation of such sensors is highly dependent on the ambient temperature. It is best to use such a device at a temperature corresponding to approximately the middle of the allowable range — in this case, the error will be minimal.

The most cold-resistant modern breathalyzers are capable of operating at sub-zero temperatures, the most resistant to heat — at temperatures of +45 ... +50 °C.
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