Triac output – Echelon FT 3150 Smart Transceiver User Manual

Chapter 3 - Input/Output Interfaces

86

FT 3120 / FT 3150 Smart Transceiver Data Book

Triac Output

On the FT Smart Transceiver, a timer/counter may be configured to control the delay of an output signal with respect
to a synchronization input. This synchronization can occur on the rising edge, the falling edge, or both the rising and
falling edges of the input signal. For control of AC circuits using a triac device, the sync input is typically a zero-
crossing signal, and the pulse output is the triac trigger signal. Table 3.6 shows the resolution and maximum range of
the delay. See Figure 3.49.

The output gate pulse is gated by an internal clock with a constant period of 25.6 µs (independent of the FT Smart
Transceiver input clock). Since the input trigger signal (zero crossing) is asynchronous relative to this internal
clock, there is a jitter, t

jit

, associated with the output gate pulse.

The actual active edge of the sync input and the triac gate output can be set by using the clock edge or invert
parameters, respectively.

Figure 3.49 Triac Output Latency Values

trigger
output

System Clock

Divide Chain

Timer/Counter 1

Timer/Counter 2

sync

IO10

IO9

IO8

IO0
IO1

IO2

IO3
IO4
IO5
IO6
IO7

mux

to
triac
gate

from
zero
crossing
detector

t

ret

END OF

io_out()

t

gpw

NEW
GATE-PULSE
DELAY

t

fout

FIRST GATE

PULSE WITH

NEW DELAY

HARDWARE

UPDATED

START

OF

io_out()

TIME

TRIAC GATE

(OUTPUT)

ZERO

CROSSING

DETECTOR

AC

INPUT

CLOCK EDGE

(+) or (-)

t

ret

END OF

io_out()

t

gpw

NEW
GATE-PULSE
DELAY

t

fout

FIRST GATE

PULSE WITH

NEW DELAY

HARDWARE

UPDATED

START

OF

io_out()

TIME

TRIAC GATE

(OUTPUT)

ZERO

CROSSING

DETECTOR

AC

INPUT

CLOCK EDGE

(+-)

High Current Sink Drivers

t

jit

t

jit

Optional Pull-Up Resistors