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AD7280A IIO鋰離子電池監(jiān)控系統(tǒng)Linux驅(qū)動(dòng)程序

1781551 2021-04-14 | pdf | 182.23KB | 次下載 | 2積分

資料介紹

This version (11 Feb 2016 20:44) was approved by Lars-Peter Clausen.The Previously approved version (16 Nov 2012 11:46) is available.

AD7280A IIO Lithium Ion Battery Monitoring System Linux Driver
Source Code
- Status
- Files
Example platform device initialization
- Declaring SPI slave devices
Adding Linux driver support
Hardware configuration
Driver testing
More Information

AD7280A IIO Lithium Ion Battery Monitoring System Linux Driver

Supported Devices

AD7280A

Evaluation Boards

EVAL-AD7280AEDZ

Description

This is a Linux industrial I/O (IIO) subsystem driver, targeting multi channel serial interface ADCs. The industrial I/O subsystem provides a unified framework for drivers for many different types of converters and sensors using a number of different physical interfaces (i2c, spi, etc). See IIO for more information.

The AD7280A contains all the functions required for general-purpose monitoring of stacked lithium ion batteries as used in hybrid electric vehicles, battery backup applications, and power tools. The part has multiplexed cell voltage and auxiliary ADC measurement channels for up to six cells of battery management. This driver supports the daisy-chain interface allowing up to eight parts to be stacked without the need for individual device isolation.

The driver automatically detects then number of devices present and creates the iio device files accordingly.

Source Code

Status

Source	Mainlined?
git	Yes

Files

Function	File
driver	drivers/staging/iio/adc/ad7280a.c
include	drivers/staging/iio/adc/ad7280a.h

Example platform device initialization

For compile time configuration, it’s common Linux practice to keep board- and application-specific configuration out of the main driver file, instead putting it into the board support file.

For devices on custom boards, as typical of embedded and SoC-(system-on-chip) based hardware, Linux uses platform_data to point to board-specific structures describing devices and how they are connected to the SoC. This can include available ports, chip variants, preferred modes, default initialization, additional pin roles, and so on. This shrinks the board-support packages (BSPs) and minimizes board and application specific #ifdefs in drivers.

21 Oct 2010 16:10

Some device parameter may vary between applications and use cases. The platform_data for the device's “struct device” holds this information.

#define AD7280A_ACQ_TIME_400ns			0
#define AD7280A_ACQ_TIME_800ns			1
#define AD7280A_ACQ_TIME_1200ns			2
#define AD7280A_ACQ_TIME_1600ns			3
?
#define AD7280A_CONV_AVG_DIS			0
#define AD7280A_CONV_AVG_2			1
#define AD7280A_CONV_AVG_4			2
#define AD7280A_CONV_AVG_8			3
?
#define AD7280A_ALERT_REMOVE_VIN5		(1 << 2)
#define AD7280A_ALERT_REMOVE_VIN4_VIN5		(2 << 2)
#define AD7280A_ALERT_REMOVE_AUX5		(1 << 0)
#define AD7280A_ALERT_REMOVE_AUX4_AUX5		(2 << 0)
?
struct ad7280_platform_data {
	unsigned acquisition_time;
	unsigned conversion_averaging;
	unsigned chain_last_alert_ignore;
	bool thermistor_term_en;
}

In case platform_data is not present or set to NULL, the driver will use following defaults:

static const struct ad7280_platform_data ad7280_default_pdata = {
	.acquisition_time = AD7280A_ACQ_TIME_400ns,
	.conversion_averaging = AD7280A_CONV_AVG_DIS,
	.thermistor_term_en = true,
};

Declaring SPI slave devices

Unlike PCI or USB devices, SPI devices are not enumerated at the hardware level. Instead, the software must know which devices are connected on each SPI bus segment, and what slave selects these devices are using. For this reason, the kernel code must instantiate SPI devices explicitly. The most common method is to declare the SPI devices by bus number.

This method is appropriate when the SPI bus is a system bus, as in many embedded systems, wherein each SPI bus has a number which is known in advance. It is thus possible to pre-declare the SPI devices that inhabit this bus. This is done with an array of struct spi_board_info, which is registered by calling spi_register_board_info().

For more information see: Documentation/spi/spi-summary

21 Oct 2010 16:10

Depending on the converter IC used, you may need to set the modalias accordingly, matching your part name. It may also required to adjust max_speed_hz. Please consult the datasheet, for maximum spi clock supported by the device in question.

static struct spi_board_info board_spi_board_info[] __initdata = {
#if defined(CONFIG_AD7280A) || /
 	defined(CONFIG_AD7280A_MODULE)
	{
		.modalias = "ad7280a",
		.max_speed_hz = 1000000,     /* max spi clock (SCK) speed in HZ */
		.bus_num = 0,
		.chip_select = GPIO_PF10 + MAX_CTRL_CS, /* CS, change it for your board */
		.mode = SPI_MODE_1,
		.irq = IRQ_PF6
	},
#endif
};

static int __init board_init(void)
{
	[--snip--]
?
	spi_register_board_info(board_spi_board_info, ARRAY_SIZE(board_spi_board_info));
?
	[--snip--]
?
	return 0;
}
arch_initcall(board_init);

Adding Linux driver support

Configure kernel with “make menuconfig” (alternatively use “make xconfig” or “make qconfig”)

The AD7280A Driver depends on CONFIG_SPI

Linux Kernel Configuration
	Device Drivers  --->
		[*] Staging drivers  --->
			<*>     Industrial I/O support --->
			    --- Industrial I/O support
			    -*-   Enable ring buffer support within IIO
			    -*-     Industrial I/O lock free software ring
			    -*-   Enable triggered sampling support

			          *** Analog to digital converters ***
			    [--snip--]

			    <*>   Analog Devices AD7280A Lithium Ion Battery Monitoring System

			    [--snip--]

Hardware configuration

Driver testing

Each and every IIO device, typically a hardware chip, has a device folder under /sys/bus/iio/devices/iio:deviceX. Where X is the IIO index of the device. Under every of these directory folders reside a set of files, depending on the characteristics and features of the hardware device in question. These files are consistently generalized and documented in the IIO ABI documentation. In order to determine which IIO deviceX corresponds to which hardware device, the user can read the name file /sys/bus/iio/devices/iio:deviceX/name. In case the sequence in which the iio device drivers are loaded/registered is constant, the numbering is constant and may be known in advance.

02 Mar 2011 15:16