The quirky quotes below are from post #521
It Allows, Lantern loves calibrated in Turbo, just remember that, Strange Behavior, Periodically Crawls, ate much food, audible beep periodically slips, a smooth appearance and disappearance - a normal situation, but sooner or later begin to operate in the supervisor microcontroller hardware throwing program voltage, fear strikes the back of the lamp, Lantern evaluate the possibility of such batteries and allows . Pay attention to him, and not on the maximum current stated by the manufacturer of the battery
This sentence sounds like somthing from Alice in wonderland, “Neat ate an audible beep periodically slips with a smooth appearance and disappearance - a normal situation.” What exactly does that mean?
Appearently the lamp is designed for batteries (read protected) that are not powerful enough for the lamp?
From #521
14 quick clicks + clamping calibrates the sensor. During calibration, temperature sensor temperature torch body must be leveled room temperature (25 ° C). The program allows the deviation of the temperature sensor from the typical value at ± 16 ° C. Successful calibration is accompanied by a double flash lamp and a green flash backlight button. If the temperature sensor readings are outside the allowed values - the rejection of the calibration will be accompanied by a single flash lamp and flash the red button illumination.
Lantern loves calibrated in Turbo, just remember that. Prolonged operation at low currents can upset the model due to the low quality of incoming information that will lead to strange behavior when trying to rapidly enable maximum power. Due to extremely low native resolution PWM is used in the M43 microcontroller (5 bits) density-pulse-width expansion periodically crawls in the audible range, and the lantern may occasionally ate much food on the high frequency, Repeated attempts are allowed it to include, but sooner or later begin to operate in the supervisor microcontroller hardware throwing program voltage of about 2,7V. Below this value, the battery discharge does not happen.
The design of the lamp is designed for protected batteries, so to have to stretch the spring force, and fear strikes the back of the lamp, which is why the batteries their weight can spring back to its original state.
The problem with protected batteries is that they are not powerful enough for the lamp, so it makes sense to refine power cells themselves. However, not all require the maximum brightness. Weak batteries have a high capacity(currently 3400mAh, against 2000 in … 2500mAh power) and allow a half-fold increase in working hours* flashlight to frequently used modes. Lantern evaluate the possibility of such batteries and allows the use of a turbo without overloading it, so the use of weak batteries is allowed and does not lead to unreliable operation. And unlike they often have power and protection, and button-top.
The program evaluates the load carrying capacity of its battery internal resistance, allowing the voltage dips in all chains (including spring lamp housing, contacts, etc.) to 0,5V. Resistance chains of the lamp, according to the terminal (see. “Terminal Mode”), about 4 mOhm, and the maximum supply current - 30A. Accordingly, the maximum internal resistance of the battery - (0.5V / 30A-0,004) * 4 = 0.05 Ohm. That this option is important when choosing batteries. Pay attention to him, and not on the maximum current stated by the manufacturer of the battery. This market value is not always the reality. Especially at Panasonic.
The overall efficiency of the inverter, as well as the amount of capacity to effectively use the battery depends on the discharge characteristics of the battery. Choose batteries with the highest average voltage (3,7V and above), as at higher voltages, the driver operates efficiently.