ZADCS1222IS14T ZMDI, ZADCS1222IS14T Datasheet - Page 18

ZADCS1222IS14T

Manufacturer Part Number

ZADCS1222IS14T

Description

Analog to Digital Converters - ADC ADC

Manufacturer

ZMDI

Datasheet

1.ZADCS1222IS14T.pdf (26 pages)

Specifications of ZADCS1222IS14T

Product Category

Analog to Digital Converters - ADC

Rohs

yes

Number Of Channels

2/1

Architecture

SAR

Conversion Rate

200 KSPs

Resolution

12 bit

Input Type

Single-Ended/Differential

Snr

70 dB

Interface Type

Microwire, QSPI, SPI

Operating Supply Voltage

2.7 V to 5.25 V

Maximum Operating Temperature

+ 85 C

Mounting Style

SMD/SMT

Package / Case

SSOP-14

Maximum Power Dissipation

250 mW

Minimum Operating Temperature

- 25 C

Number Of Converters

Voltage Reference

2.5 V

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together with the source impedance, it may be useful for certain applications.

The small-signal bandwidth of the input tracking circuitry is 3.8MHz. Hence it is possible to digitize high-speed

transient events and periodic signals with frequencies exceeding the ADC’s sampling rate. This allows the

application of certain under-sampling techniques like down conversion of modulated high frequency signals.

Be aware that under-sampling techniques still require a bandwidth limitation of the input signal to less than the

Nyquist frequency of the converter to avoid aliasing effects. Also, the output impedance of the input source

must be very low to achieve the mentioned small signal bandwidth in the overall system.

2.3.

ZADCS12x2V family members are equipped with a highly accurate internal 2.5V reference voltage source.

The voltage is generated from a trimmed 1.25V bandgap with an internal buffer that is set to a gain of 2.00.

The bandgap voltage is supplied at VREFADJ with an output impedance of 20kΩ. An external capacitor of

47nF at

The VREFADJ pin also provides an opportunity to externally adjust the bandgap voltage in a limited range

(see Figure 10) as well as the possibility to overdrive the internal bandgap with an external 1.25V reference.

The internal bandgap reference and the VREF buffer can be shut down completely by setting VREFADJ to

VDD. This reduces power consumption of the ZADCS12x2V devices and allows the supply of an external

reference at VREF.

Figure 10: Reference Adjust Circuit

and charge currents that result from the switching and recharging of the capacitor array (CDAC) during

sampling and conversion. For an external reference of 2.5V the input current at VREF is approximately

100µA.

2.4.

All devices out of the ZADCS12x2 family are controlled by a 4-wire serial interface that is compatible to SPI™,

QSPI™ and MICROWIRE™ devices without external logic. Any conversion is started by sending a control

byte into DIN while nCS is low. A typical sequence is shown in Figure 11.

The control byte defines the input channel(s), unipolar or bipolar operation and output coding, single-ended or

differential input configuration, external or internal conversion clock and the kind of power down that is

activated after the completion of a conversion. A detailed description of the control bits can be obtained from

Figure 11. As it can also be seen in Figure 11 the acquisition of the input signal occurs at the end of the

control byte for 2.5 clock cycles. Outside this range, the Track & Hold is in hold mode.

The conversion process is started, with the falling clock edge (SCLK) of the eighth bit in the control byte. It

takes twelve clock cycles to complete the conversion and one additional cycle to shift out the last bit of the

conversion result. During the remaining seven clock cycles the output is filled with zeros in 24-Clock

Conversion Mode. Depending on what clock mode was selected, either the external SPI clock or an internal

clock is used to drive the successive approximation. Figure 12 shows the Timing for Internal Clock Mode.

Data Sheet

October 12, 2011

ZADCS1282/1242/1222

12-Bit, 200ksps, ADC Family

Internal & External Reference

Digital Interface

VDD = +2.7V … +5.25V

VREFADJ is useful to further decrease noise on the internal reference.

510kΩ

47nF

the prior written consent of the copyright owner. The information furnished in this publication is PRELIMINARY and subject to

changes without notice.

VREFADJ

ZADCS12x2V

Basic ZADCS12x2 devices do not contain the internal bandgap

or the VREF buffer. An external reference must be supplied all

the time at VREF.

The value of the reference voltage at VREF sets the input range

of the converter and the analog voltage weight of each digital

code. The size of the LSB (least significant bit) is equal to the

value of VREF (reference to AGND) divided by 4096. For

example at a reference voltage of 2.500V, the voltage level of a

LSB is equal to 0.610mV.

The average current consumption at VREF depends on the value

of VREF and the sampling frequency. Two effects contribute to

the current at VREF, a resistive connection from VREF to AGND

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ZADCS1222IS14T ZMDI, ZADCS1222IS14T Datasheet - Page 18

ZADCS1222IS14T

Specifications of ZADCS1222IS14T

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