TC7109 TelCom, TC7109 Datasheet - Page 11
TC7109
Manufacturer Part Number
TC7109
Description
12-BIT UP-COMPATIBLE ANALOG-TO-DIGITAL CONVERTERS
Manufacturer
TelCom
Datasheet
1.TC7109.pdf
(21 pages)
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Handshake Mode
digital systems is provided when the handshake output
mode of the TC7109A becomes active in controlling the
flow of data instead of passively responding to chip and
byte enable inputs. This mode allows a direct interface
between the TC7109A and industry-standard UARTs with
no external logic required. The TC7109A provides all the
control and flag signals necessary to sequence the two
bytes of data into the UART and initiate their transmission
in serial form when triggered into the handshake mode.
The cost of designing remote data acquisition stations is
reduced using serial data transmission to minimize the
number of lines to the central controlling processor.
the MODE input is held HIGH, the TC7109A enters the
handshake mode after new data has been stored in the
output latches at the end of every conversion performed
(see Figures 7 and 8). Entry into the handshake mode may
be triggered on demand by the MODE input. At any time
during the conversion cycle, the LOW-to-HIGH transition of
a short pulse at the MODE input will cause immediate entry
into the handshake mode. If this pulse occurs while new
data is being stored, the entry into handshake mode is
delayed until the data is stable. The MODE input is ignored
in the handshake mode, and until the converter completes
the output cycle and clears the handshake mode, data
updating will be inhibited (see Figure 9).
enters the handshake mode, the chip and byte enable
inputs become TTL-compatible outputs which provide the
output cycle control signals (see Figures 7, 8 and 9).
tion of the ability of the receiving device (such as a UART)
to accept data in the handshake mode. The sequence of
the output cycle with SEND held HIGH is shown in Figure
7. The handshake mode (internal MODE HIGH) is entered
after the data latch pulse (the CE/LOAD, LBEN and HBEN
terminals are active as outputs since MODE remains HIGH).
same HIGH-to-LOW internal clock edge. On the next LOW-
to-HIGH internal clock edge, the high-order byte (bits 9
through 12, POL, and OR) outputs are enabled and the CE/
LOAD and the HBEN outputs assume a LOW level. The
CE/LOAD output remains LOW for one full internal clock
period only; the data outputs remain active for 1-1/2 inter-
nal clock periods; and the high-byte enable remains LOW
for 2 clock periods. The CE/LOAD output LOW level or
LOW-to-HIGH edge may be used as a synchronizing sig-
nal to ensure valid data, and the byte enable as an output
may be used as a byte identification flag. With SEND
12-BIT P-COMPATIBLE
ANALOG-TO-DIGITAL CONVERTERS
An alternative means of interfacing the TC7109A to
The MODE input controls the handshake mode. When
When the MODE input is HIGH or when the converter
The SEND input is used by the converter as an indica-
The HIGH level at the SEND input is sensed on the
TELCOM SEMICONDUCTOR, INC.
remaining HIGH the converter completes the output cycle
using CE/LOAD and LBEN while the low-order byte out-
puts (bits 1 through 8) are activated. When both bytes are
sent, the handshake mode is terminated. The typical UART
interfacing timing is shown in Figure 8. The SEND input is
used to delay portions of the sequence, or handshake, to
ensure correct data transfer. This timing diagram shows an
industry-standard HD6403 or CDP1854 CMOS UART to
interface to serial data channels. The SEND input to the
TC7109A is driven by the TBRE (Transmitter Buffer Regis-
ter Empty) output of the UART, and the CE/LOAD input of
the TC7109A drives the TBRL (Transmitter Buffer Register
Load) input to the UART. The eight transmitter buffer regis-
ter inputs accept the parallel data outputs. With the UART
transmitter buffer register empty, the SEND input will be
HIGH when the handshake mode is entered after new data
is stored. The high-order byte outputs become active and
the CE/LOAD and HBEN inputs will go LOW after SEND is
sensed. When CE/LOAD goes HIGH at the end of one
clock period, the high-order byte data is clocked into the
UART transmitter buffer register. The UART TBRE output
will go LOW, which halts the output cycle with the HBEN
output LOW, and the high-order byte outputs active. When
the UART has transferred the data to the transmitter regis-
ter and cleared the transmitter buffer register, the TBRE
returns HIGH. The high-order byte outputs are disabled on
the next TC7109A internal clock HIGH-to-LOW edge, and
one-half internal clock later, the HBEN output returns HIGH.
The CE/LOAD and LBEN outputs go LOW at the same
time as the low-order byte outputs become active. When
the CE/LOAD returns HIGH at the end of one clock period,
the low-order data is clocked into the UART transmitter
buffer register, and TBRE again goes LOW. The next
TC7109A internal clock HIGH-to-LOW edge will sense
when TBRE returns to a HIGH, disabling the data inputs.
One-half internal clock later, the handshake mode is cleared,
and the CE/LOAD, HBEN
HIGH and stay active, if MODE still remains HIGH.
demand by triggering the converter into handshake mode
with a LOW-to-HIGH edge on the MODE input. A hand-
shake output sequence triggered is shown in Figure 9. The
SEND input is LOW when the converter enters handshake
mode. The whole output sequence is controlled by the
SEND input, and the sequence for the first (high order) byte
is similar to the sequence for the second byte.
longer than a conversion cycle. New data will not be latched
when the handshake mode is still in progress and is there-
fore lost.
Handshake output sequences may be performed on
Figure 9 also shows that the output sequence can take
and LBEN terminals return
TC7109A
TC7109
3-101
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