Datasheet > QT115H

QT115H

更新时间： 2024-01-14 06:35:48

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QT 11x Series Variations

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QT115H 技术参数

是否Rohs认证：	符合	生命周期：	Obsolete
包装说明：	,	Reach Compliance Code：	unknown
风险等级：	5.84	湿度敏感等级：	1
Base Number Matches：	1

QT115H 数据手册

Quantum Research Group Ltd.

4 August 2004

5.5 DC SPECIFICATIONS VDD = 3.0V, CS = 10NF, CX = 10PF, TA = RECOMMENDED RANGE

Parameter

Notes

Description

Min

Typ

Max

Units

Supply current, master mode

Supply current, slave mode

Sensitivity range

700

µA

Cs = 10nF to 100nF

Typical, see figs 1, 2; Note 1, 2

1,000

Note 1: All percentage thresholds have been eliminated and replaced with a fixed threshold w.r.t. reference level

Note 2: Sensitivity depends on value of Cx and Cs. Refer to Charts 1, 2.

Piezo Driver Note

The piezo acoustic driver has been removed, as the duration required to operate the beeper would interfere with

the sensing interval and slow down the device.

Sensitivity Adjustment Note

The device has a fixed threshold point of 6 counts of deviation. Gain pin adjustment (pin 5) has been eliminated

and replaced with a strap option for Master / Slave mode:

Table 1-1 Master/Slave Strap Options

Mode

Master

Slave

Tie Pin 5 to:

Vdd

Gnd

The sensitivity of the circuit is governed by the relative sizes of Cs and Cx. A detection is made if the signal rises

by 6 counts from the reference level; this amount, unlike the QT110, is not ratiometric to the signal level and

therefore the sensitivity can be altered by simply changing Cs. To provide a consistent level of sensitivity, only

stable types of capacitors are recommended for Cs, such as NPO, C0G, PPS film, and certain types of

polycarbonate when used over normal room temperature ranges.

Larger values of Cs will make the sensor more sensitive, while larger amounts of Cx will desensitize it (see

Charts 1, 2). Minimizing stray Cx is crucial if high levels of sensitivity are desired. By using values of Cs around

0.47uF (470nF), proximity distances of several centimeters can easily be obtained from small electrodes.

NOTE: It is extremely important to maintain stable levels of Vdd, as the supply is used as a

reference. Minor fluctuations in Vdd WILL cause false triggers or rapid swings in gain. DO NOT use

bench power supplies or supply circuits shared with other digital functions. Ordinary 78L05 class

regulators are fine in almost all cases. The QT115 is an extremely sensitive device... do not take

power supply issues lightly.

Pin Functions

The QT115 pins are defined as shown:

Table 2-1 QT115 Pin Functions

Function

Vdd

Description

Power, +3V to +5V

Out

Active-low output

Sync Pulse Out (master or slave mode)

Sync Pulse In (slave mode only)

20us nominal negative sync pulse

>10us, <50us negative pulse input to trigger in slave mode

In Master Mode: Connect to either Gnd or Vcc.

Master/Slave select

Vdd = Master mode, Gnd = Slave mode (strap option)

SNS1

SNS2

Gnd

QT Sense pin 1

QT Sense pin 2

Ground, 0V

QT113 QProx™ 8-pin Sensor

1 2 3 456

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