LNDADC18 Datasheet, PDF(1/2 Page) Richtek Technology Corporation – <10uA Low OSR 18 Bit ΔΣ ADC 14 bit Pipeline / 6 bit Flash

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LNDADC18 Datasheet, PDF (1/2 Pages) Richtek Technology Corporation – <10uA Low OSR 18 Bit ΔΣ ADC 14 bit Pipeline / 6 bit Flash

ADVANCE DATASHEET

LNDADC18

<10uA Low OSR 18 Bit ÎÎ£ ADC

14 bit Pipeline / 6 bit Flash

GENERAL DESCRIPTION

The LNDADC18 is the lowest power consumption 18 bit (>16 bit

ENOB) ADC available on the market for low bandwidth portable

applications. The LNDADC18 may be programmed from an OSR

(over sample rate) of 4x to 32x. At 4x and 2.5kHz clocking

frequency, a 312.5Hz signal may be reliably acquired using only

7.23uA in the ADC. Alternatively, a higher clocking rate such as 32x

will allow acquisition of signals up to 2.5kHz with 16 bits of accuracy

or lower bandwidth signals to greater than 16 bits ENOB.

To achieve this FOM (power consumption per acquisition) the

LNDADC18 utilizes the latest cascade architecture, high order delay

line quantizer, and switched capacitor and subthreshold techniques.

Achieving a low OSR, high bit accuracy ADC is difficult as the low

OSR requires a higher order noise transfer function (NTF) which

creates instability and reduces dynamic range and/or a higher order

quantizer which generally requires a complex digitally tuned flash

ADC. To optimize stability and dynamic range the LNDADC18 uses

a cascade architecture with a 5 bit quantizer and a 2nd order

modulator.

The 5 bit quantizer utilizes the latest tracking delay line techniques

to reduce the tuning and silicon overhead of conventional ADCs.

The cascade allows the equivalent of a higher order NTF by

cascading data converters but as the cascade is not in the timing

critical loop it can utilize a twelve (12) bit self correcting pipeline

architecture. The flow diagram of this arrangement is shown in

Figure 2.

Each of the three ADCs may be used independently and the clock

rate increased to acquire higher bandwidth signals or improve

resolution in the case of the ÎÎ£. The ÎÎ£ includes all required anti-

aliasing & decimation filters and a low power subsystem

(nanoPOWER) manager.

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FEATURES

ï· Lowest current 18 bit ADC for low bandwidth

(<=2.5kHz) applications

ï· Uses the latest switchcap and subthreshold

techniques to minimize current draw

ï· Low OSR cascade design optimizes stability &

minimizes current consumption

ï· Minimum clock of 2.5kHz minimizes current

consumption but allows 16 bit ENOB

ï· Programmable OSR (oversample rate) allows

tradeoff of ENOB (equivalent number of bits) to

resolution

ï· >96dB SQNR (>16 ENOB)

ï· 5 bit differential delay line quantizer

ï· Three analog to digital converters (ADCs) form the

cascade:

ï· 6 bit delay line flash ADC (<1uA typ)

ï· Up to 14 bit pipeline ADC (<4uA typ)

ï· Up to 18 bit low OSR ÎÎ£ ADC (<8uA typ â ÎÎ£

includes the 6 bit and 14 bit ADCs)

ï· Flash and pipeline may be used independently

ï· Includes corner correcting decimation filters

ï· Includes antialiasing filters

ï· Includes 32 bit shuffling DAC structure for

coefficients

ï· Each ADC may be put to sleep to save power

ï· Power optimization subsystem

ï· SPI Interface (independently enabled)

DIAGRAM

Figure 2 â Cascade arrangement of the 18 bit ÎÎ£ ADC

APPLICATIONS

Figure 1 â FFT shows a >96 SQNR sinewave for a low LNDADC18 OSR of 4x.

This represents the lowest possible current consumption for portable

applications such as medical acquisition. The OSR of the ÎÎ£ may be adjusted

to improve SQNR (ENOB) or raise the bandwidth of acquisition.

ï· Portable heart rate equipment

ï· Portable fitness & wellness products

ï· Non-critical diagnostics

ï· Low bandwidth portable electronics

ï· Vibration sensors

ï· Linear Dimensions Semiconductor Inc. ï· 22620 Ricardo Rd, Cupertino CA 95014 USA ï· tel 312.321.1810 ï· fax 312.321.1830 ï· www.lineardimensions.com ï·

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