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Alternatively, to load the driver as a module at boot time, place the following line in loader.conf(5):
ads111x_load="YES"
Sysctl(8) provides access to the voltage measurements made by the device. Each time the dev.ads111x.<unit>.<channel>.voltage variable is accessed for a given channel, the driver switches the chip's internal mux to choose the right input pins for that channel, directs it to make a single measurement, and returns the measured value in microvolts. The amount of time required to make the measurement is a function of the sampling rate configured for the device. While device is directed to make a single measurement, it still averages the input values for the same amount of time as it would to emit one sample if it were in continuous mode. For example, if the sample rate were configured as 125 samples per second, a single measurement would require 8 milliseconds.
For devices that support multiple input pins, the device datasheet describes mux settings to control how those pins are interpeted when making either single-ended or differential measurements. There are eight possible ways to combine the inputs from the four pins. The ads111x driver models that by creating a separate output channel for each of the eight combinations. To make a measurement on a given pin or pair of pins, you simply access the voltage variable for the channel number that corresponds the mux setting number (0 through 7) shown in the datasheet. When the driver is configured with hints or FDT data, it creates sysctl variables for just the channels specified in the config data. When there is no channel config data, it creates all eight possible channels so that you can access whichever one(s) you need.
For devices that include an alert output pin, the ads111x driver does not directly support the pin in terms of sensing or acting on changes in the pin state. However, you may connect the pin to a gpio input or fan controller or other external device, and use the driver's sysctl variables to configure behavior and threshold values for the pin. The driver avoids perturbing your settings as it does other manipulations to the config register.
dev.ads111x.<unit>.config | |
Provides access to the configuration register bits that control the alert pin configuration. Other bits which are controlled by the driver are masked out, and cannot be viewed or changed using this variable. | |
dev.ads111x.<unit>.lo_thresh | |
Sets the low threshold for activating the alert pin. | |
dev.ads111x.<unit>.hi_thresh | |
Sets the high threshold for activating the alert pin. | |
dev.ads111x.<unit>.<channel>.rate_index | |
Sets the sample rate for the channel.
The device datasheet documents eight available sample rates, chosen
by setting a value of 0 through 7 into the corresponding control
register bits.
This variable sets the value used for those bits when making a
measurement on the given channel.
Because measurements are always made in single-shot mode, think of this variable as controlling the averaging time for a single sample; the time to make a measurement is 1 / samplerate. | |
dev.ads111x.<unit>.<channel>.gain_index | |
Sets the programmable gain amplifier for the channel on devices which have an internal amplifier. The device datasheet documents eight available gain values, chosen by setting a value of 0 through 7 into the corresponding control register bits. This variable sets the value used for those bits when making a measurement on the given channel. | |
dev.ads111x.<unit>.<channel>.voltage | |
Reading this variable causes the device to make a measurement on
the corresponding input pin(s) and return the voltage in microvolts.
Note that this variable does not appear when you list multiple sysctl variables -- you must access it specifically by name, because accessing it triggers device I/O. | |
ADS1013 | ADS1113 |
ADS1014 | ADS1114 |
ADS1015 | ADS1115 |
The following properties are required in the ads111x device subnode:
compatible | |||||||
One of the following:
| |||||||
reg | |||||||
I2c slave address of device. | |||||||
Specific channels can be configured by adding child nodes to the ads111x node, as described in the standard ads1015.txt bindings document. If no channels are configured, sysctl variables will be created for all possible channels supported by the device type, otherwise only the specified channels are created.
adc@48 { compatible = "ti,ads1115"; reg = <0x48>; status = "okay"; #address-cells = <1>; #size-cells = <0>;channel@6 { reg = <6>; ti,gain = <3>; ti,datarate = <4>; }; channel@7 { reg = <7>; ti,gain = <1>; ti,datarate = <7>; }; };
hint.ads111x.<unit>.at | |
The iicbus instance the ads111x instance is attached to. | |
hint.ads111x.<unit>.<channel>.gain_index | |
The amplifier gain, as described above for the sysctl variable dev.ads111x.<unit>.<channel>.gain_index. | |
hint.ads111x.<unit>.<channel>.rate_index | |
The sample rate, as described above for the sysctl variable dev.ads111x.<unit>.<channel>.rate_index. | |
If no channels are configured, sysctl variables will be created for all possible channels supported by the device type, otherwise only the specified channels are created.
ADS111x (4) | September 2, 2019 |
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