package for controlling raspihats.com boards
Project description
This package provides the necessary code to interface the Raspberry Pi HATs(add-on boards) from raspihats.com:
Typical usage often looks like this:
#!/usr/bin/env python
# In this setup there are two I2C-HATs stacked, one DI16ac and one DQ10rly.
from raspihats.i2c_hats import DI16ac, DQ10rly
di16ac = DI16ac(0x40) # 0x40 is the I2C bus address
dq10rly = DQ10rly(0x50) # 0x50 is the I2C bus address
while True:
state = di16ac.di.channels[0] # get digital input channel 0
dq10rly.dq.channels[0] = state # set digital output channel 0
dq10rly.dq.channels[1] = not state # set digital output channel 1IRQ feature(from v2.3.0)
Starting from hardware revision 2.0, DI16ac and DI6acDQ6rly boards can trigger an IRQ line that’s connected to GPIO21 of the Raspberry Pi.
try:
import Queue as queue
except ImportError:
import queue
from time import sleep
import RPi.GPIO as GPIO
from raspihats.i2c_hats import DI16ac, DI6acDQ6rly
IRQ_PIN = 21
GPIO.setmode(GPIO.BCM)
# IRQ pin setup as input with pull-up enabled
GPIO.setup(IRQ_PIN, GPIO.IN, pull_up_down=GPIO.PUD_UP)
# this queue is use to safely exchange information between threads
event_queue = queue.Queue(maxsize = 20)
def isr(pin):
event_queue.put(pin)
GPIO.add_event_detect(IRQ_PIN, GPIO.FALLING, callback=isr)
# b = DI16ac(0x40) # 0x40 is the I2C bus address
b = DI6acDQ6rly(0x60) # 0x60 is the I2C bus address
print(str(b.name) + ' ' + str(b.fw_version))
print('Use Ctrl+C to stop program.')
# enable raising edge IRQs for Digital Input channels 0 and 2
b.di.irq_reg.rising_edge_control = 0x05
# enable falling edge IRQs for Digital Input channels 1 and 2
b.di.irq_reg.falling_edge_control = 0x06
# dump DigitalInputs IRQ CaptureQueue contents and release IRQ line by
# writing 0 to DigitalInputs IRQ Capture Register
b.di.irq_reg.capture = 0
while True:
try:
# wait until there is something in the queue, timeout is here because a
# queue.get without a timeout can't be interrupted with a KeyboardInterrupt
pin = event_queue.get(block=True, timeout=0.2)
if pin == IRQ_PIN:
# read the DigitalInputs IRQ Capture Register(to read the values
# stored in the DigitalInputs IRQ CaptureQueue) until the
# returned value is 0, this means DigitalInputs IRQ CaptureQueue
# is empty and the IRQ line is released
while True:
capture = b.di.irq_reg.capture
if capture == 0:
break
status = capture & 0xFFFF
states = (capture >> 16) & 0xFFFF
for channel in range(0, 16):
mask = 0x01 << channel
if (status & mask) > 0:
print('IRQ detected on channel: %d, state: %d' %(channel, (states & mask) >> channel))
except queue.Empty:
pass
except KeyboardInterrupt:
# disable raising edge IRQs for Digital Input channels
b.di.irq_reg.raising_edge_control = 0
# disable falling edge IRQs for Digital Input channels
b.di.irq_reg.falling_edge_control = 0
GPIO.remove_event_detect(IRQ_PIN)
GPIO.cleanup()
breakListing attributes and methods(from v2.0.0)
#!/usr/bin/env python
from raspihats.i2c_hats import DI6acDQ6rly
board = DI6acDQ6rly(0x60) # 0x60 is the I2C bus address
board.name # get board name, in this case 'DI6acDQ6rly'
board.status.value # get status word
board.reset() # reset board
# cwdt - Communication WatchDog Timer
board.cwdt.period # get CommunicationWatchDogTimer(CWDT) period
board.cwdt.period = 1 # set CWDT period, any value greather than 0 enables the CWDT
board.cwdt.period = 0 # 0 disables the CWDT
# di - Digital Inputs
board.di.value # get all digital input channel states, bit 0 represents channel 0 state and so on ..
board.di.channels[0] # get digital input channel 0 state, access using channel index
board.di.channels['I0'] # get digital input channel 0 state, access using channel label
board.di.r_counters[0] # get digital input channel 0 raising edge counter
board.di.r_counters['I0'] # get digital input channel 0 raising edge counter
board.di.r_counters[0] = 0 # reset digital input channel 0 raising edge counter
board.di.r_counters['I0'] = 0 # reset digital input channel 0 raising edge counter
board.di.f_counters[0] # get digital input channel 0 falling edge counter
board.di.f_counters['I0'] # get digital input channel 0 falling edge counter
board.di.f_counters[0] = 0 # reset digital input channel 0 falling edge counter
board.di.f_counters['I0'] = 0 # reset digital input channel 0 falling edge counter
board.di.reset_counters() # reset all counters(rising and falling edge) for all channels
board.di.labels # get digital input labels
# dq - Digital Outputs
board.dq.value # get all digital output channel states, bit 0 represents channel 0 and so on ..
board.dq.value = 0 # set all digital output channel states
board.dq.channels[0] # get digital output channel 0 state, access using channel index
board.dq.channels[0] = 0 # set digital output channel 0 state
board.dq.channels['Q0'] # get digital output channel 0 state, access using channel label
board.dq.channels['Q0'] = 0 # set digital output channel 0 state
# PowerOnValue -- loaded to Digital Outputs at board power on
board.dq.power_on_value # get digital output channels PowerOnValue, bit 0 represents channel 0 and so on ..
board.dq.power_on_value = 0 # set digital output channels PowerOnValue
# SafetyValue -- loaded to Digital Outputs at CWDT timeout
board.dq.safety_value # get digital output channels SafetyValue, bit 0 represents channel 0 and so on ..
board.dq.safety_value = 0 # set digital output channels SafetyValue
board.dq.labels # get digital output labelsChange Log
v2.3.0
Added IRQ support
v2.2.3
enum34 is loaded for python<3.4
Setup script warning if it’s not run with sudo(used to setup I2C ClockStretchTimeout)
v2.2.2
Bug fix in setup script, BCM2835 platform hardware is now recognized.
Bug fix in robotframework interface, status.value is now returned by get_status()
v2.2.1
Added StatusWord class. To get raw int value use board.status.value, to get beautiful string representation use str(board.status).
v2.1.1
String representation of I2CHat object doesn’t use an I2C bus transfer any more.
Improved exception messages
v2.1.0
Improved exception handling
v2.0.1
Fixed I2C clock stretch timeout setup script
v2.0.0
v1.1.1
#!/usr/bin/env python
# In this setup there are two I2C-HATs stacked, one Di16 and one Rly10.
from raspihats.i2c_hats import Di16, Rly10
di16 = Di16(0x40) # 0x40 is the I2C bus address
rly10 = Rly10(0x50) # 0x50 is the I2C bus address
# The I2C-HAT address high nibble is fixed(0x4 for Di16, 0x5 for Rly10), the low nibble
# value is set using the on-board address jumper, range is [0x0 .. 0xF].
while True:
state = di16.di_get_channel_state('Di1.1')
rly10.do_set_channel_state('Rly1', state)
rly10.do_set_channel_state('Rly2', not state)Installation
Install dependencies
The python-smbus package
$ sudo apt-get install python-smbus
# or if using python 3
$ sudo apt-get install python3-smbusInstall from repository
# Make sure you have git, pip and setuptools installed
$ git clone git@github.com:raspihats/raspihats.git
$ cd raspihats
$ sudo python setup.py install
# or if using python 3
$ sudo python3 setup.py installInstall using pip
# Make sure you have pip and setuptools installed
$ sudo pip install raspihats
# or if using python 3
$ sudo pip3 install raspihatsCheckout raspihats.com
Release history Release notifications | RSS feed
Download files
Download the file for your platform. If you're not sure which to choose, learn more about installing packages.
Source Distribution
raspihats-2.3.0.tar.gz
(17.8 kB
view hashes)
