TC850CPL データシートの表示（PDF） - TelCom Semiconductor Inc => Microchip

部品番号

コンポーネント説明

メーカー

TC850CPL

15-BIT, FAST-INTEGRATING CMOS ANALOG-TO-DIGITAL CONVERTER

TelCom Semiconductor Inc => Microchip 

15-BIT, FAST-INTEGRATING CMOS

ANALOG-TO-DIGITAL CONVERTER

TC850

Differential Reference (VREF)

The TC850 requires two reference voltage sources in

order to generate the "fast-slow" deintegrate phases. The

main voltage reference (VREF1) is applied between the REF1+

and REF – pins. The secondary reference (VREF2) is applied

between the REF+2 and REF – pins.

The reference voltage inputs are fully differential, and

the reference voltage can be generated anywhere within the

power supply voltage of the converter. However, to minimize

roll-over error, especially at high conversion rates, keep the

reference common-mode voltage (i.e., REF –) near or at the

analog common potential. All voltage reference inputs are

high impedance. Average reference input current is typically

only 30pA.

Analog Common (COMMON)

Analog common is used as the IN– return during the

zero-integrator and deintegrate phases of each conversion.

If IN– is at a different potential than analog common, a

common-mode voltage exists in the system. This signal is

rejected by the 86 dB CMRR of the converter. However, in

most applications, IN– will be set at a fixed, known voltage

(power supply common, for instance). In this case, analog

common should be tied to the same point so that the

common-mode voltage is eliminated.

DIGITAL SECTION DESCRIPTION

The TC850 digital section consists of two sets of conver-

sion counters, control and sequencing logic, clock oscillator

and divider, data latches, and an 8-bit, 3-state interface bus.

A simplified schematic of the bus interface logic is shown in

Figure 5.

Clock Oscillator

The TC850 includes a crystal oscillator on-chip. All that

is required is to connect a crystal across OSC1 and OSC2

pins, and to add two inexpensive capacitors (Figure 1). The

oscillator output is ÷ 4 prior to clocking the A/D internal

counters. For example, a 100kHz crystal produces a system

clock frequency of 25kHz. Since each conversion requires

1280 clock periods, in this case the conversion rate will be

25,000/1280, or 19.5 conversions per second.

In most applications, however, an external clock is

divided down from the microprocessor clock. In this case,

the OSC1 pin is used as the external oscillator input and

OSC2 is left unconnected. The external clock driver should

swing from digital ground to VDD. The ÷4 function is active for

both external clock and crystal oscillator operations.

DBO–DB7

L/H

RD

CE

CS

POL/OVR

WR

CONT/

DEMAND

3-84

3-STATE

8

OCTAL

8

BUFFER

8

2-INPUT

7

MUX

OUTPUT

ENABLE

SELECT

LOW-BYTE

UP/DOWN

COUNTER

HIGH-BYTE

UP/DOWN

COUNTER

TO A/D

CONTROL

LOGIC

TC850

SELECT

2-INPUT

MUX

START

CONVERSION

POLARITY

OVERANGE

END OF

CONVERSION

Figure 5. Bus Interface Simplified Schematic

TELCOM SEMICONDUCTOR, INC.

Share Link: