}
class Decoder(srd.Decoder):
- api_version = 2
+ api_version = 3
id = 'tlc5620'
name = 'TI TLC5620'
longname = 'Texas Instruments TLC5620'
)
def __init__(self):
- self.oldpins = self.oldclk = self.oldload = self.oldldac = None
self.bits = []
self.ss_dac_first = None
self.ss_dac = self.es_dac = 0
[8, ['Updating voltages: %s' % s, s, s.replace('DAC', '')]])
self.ss_dac_first = None
- def handle_new_dac_bit(self):
- self.bits.append([self.datapin, self.samplenum])
-
- def decode(self, ss, es, data):
- for (self.samplenum, pins) in data:
-
- # Ignore identical samples early on (for performance reasons).
- if self.oldpins == pins:
- continue
- self.oldpins, (clk, self.datapin, load, ldac) = pins, pins
- self.ldac = ldac
+ def handle_new_dac_bit(self, datapin):
+ self.bits.append([datapin, self.samplenum])
+ def decode(self):
+ while True:
# DATA is shifted in the DAC on the falling CLK edge (MSB-first).
# A falling edge of LOAD will latch the data.
- if self.oldload == 1 and load == 0:
+ # Wait for one (or multiple) of the following conditions:
+ # a) Falling edge on CLK, and/or
+ # b) Falling edge on LOAD, and/or
+ # b) Falling edge on LDAC
+ pins = self.wait([{0: 'f'}, {2: 'f'}, {3: 'f'}])
+ self.ldac = pins[3]
+
+ # Handle those conditions (one or more) that matched this time.
+ if self.matched[0]:
+ self.handle_new_dac_bit(pins[1])
+ if self.matched[1]:
self.handle_falling_edge_load()
- if self.oldldac == 1 and ldac == 0:
+ if self.matched[2]:
self.handle_falling_edge_ldac()
- if self.oldclk == 1 and clk == 0:
- self.handle_new_dac_bit()
-
- self.oldclk = clk
- self.oldload = load
- self.oldldac = ldac