Section 8. Operation
476
code snip turns the modem on for ten minutes at the top of the hour using the
TimeIntoInterval()
instruction embedded in an
If
/
Then
logic statement:
If
TimeIntoInterval
( 0,60,Min) Then
PortSet
(9,1)
'Port “9” is the
SW12V Port. Turn phone on.
If
TimeIntoInterval
(10,60,Min) Then
PortSet
(9,0)
'Turn phone
off.
TimeIsBetween()
returns
TRUE
if the CR6 real-time clock falls within the
specified range; otherwise, the function returns
FALSE
. Like
TimeIntoInterval()
,
TimeIsBetween()
is often embedded in an
If
/
Then
logic
statement, as shown in the following code snip.
If
TimeIsBetween
(0,10,60,Min)
Then
SW12
(1)
'Turn phone on.
Else
SW12
(0)
'Turn phone off.
EndIf
TimeIsBetween()
returns
TRUE
for the entire interval specified whereas
TimeIntoInterval()
returns
TRUE
only for the one scan that matches the interval
specified.
For example, using the preceding code snips, if the CRBasic program is sent to
the datalogger at one minute past the hour, the
TimeIsBetween()
instruction will
evaluate as
TRUE
on its first scan. The
TimeIntoInterval()
instruction will
evaluate as
TRUE
at the top of the next hour (59 minutes later).
•
Note
START is inclusive and STOP is exclusive in the range of time
that will return a TRUE result. For example:
TimeIsBetween
(0,10,60,Min) will return TRUE at 8:00:00.00 and
FALSE at 08:10:00.00.
8.3.1 Terminals Configured for Control
U
and
C
terminals can be configured as output ports to set low (0 Vdc, turn off)
or high (3.3 or 5 Vdc, turn on) using the
PortSet()
or
WriteIO()
instructions.
Terminals can also be configured for pulse-width modulation. See
Pulse Width
Modulation — Specifications
(p. 114).
A terminal configured for digital I/O is
normally used to operate an external relay-driver circuit because the port itself has
limited drive capacity. For current sourcing limit, or drive capacity, see
Omnibus
Current Source and Sink Limits — Specifications
(p. 124).
8.4
Measurement and Control Peripherals — Details
Related Topics:
•
Measurement and Control Peripherals — Overview
(p. 92)
•
Measurement and Control Peripherals — Details
(p. 476)
•
Measurement and Control Peripherals — Lists
(p. 652)
Peripheral devices expand the CR6 input and output capacities. Some
peripherals are designed as SDM (synchronous devices for measurement) or
CDM (CPI devices for measurement). SDM and CDM devices are intelligent
Summary of Contents for CR6 Series
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Page 76: ...Section 5 Overview 76 FIGURE 20 Half Bridge Wiring Example Wind Vane Potentiometer ...
Page 80: ...Section 5 Overview 80 FIGURE 23 Pulse Input Wiring Example Anemometer ...
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Page 454: ...Section 8 Operation 454 FIGURE 104 Narrow Sweep High Noise ...
Page 459: ...Section 8 Operation 459 FIGURE 106 Vibrating Wire Sensor Calibration Report ...
Page 535: ...Section 8 Operation 535 8 11 2 Data Display FIGURE 121 CR1000KD Displaying Data ...
Page 537: ...Section 8 Operation 537 FIGURE 123 CR1000KD Real Time Custom ...
Page 538: ...Section 8 Operation 538 8 11 2 3 Final Storage Data FIGURE 124 CR1000KD Final Storage Data ...
Page 539: ...Section 8 Operation 539 8 11 3 Run Stop Program FIGURE 125 CR1000KD Run Stop Program ...
Page 541: ...Section 8 Operation 541 FIGURE 127 CR1000KD File Edit ...
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Page 610: ...Section 11 Glossary 610 FIGURE 137 Relationships of Accuracy Precision and Resolution ...
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