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您現(xiàn)在的位置：買賣IC網(wǎng) > PDF目錄361325 > QT60161B-AS (Electronic Theatre Controls, Inc.) 16 KEY QMATRIX KEYPANEL SENSOR IC PDF資料下載

參數(shù)資料

型號(hào)：	QT60161B-AS
廠商：	Electronic Theatre Controls, Inc.
英文描述：	16 KEY QMATRIX KEYPANEL SENSOR IC
中文描述：	16個(gè)主要QMATRIX KEYPANEL傳感器IC
文件頁(yè)數(shù)：	11/36頁(yè)
文件大?。?/td>	683K
代理商：	QT60161B-AS

the burst during which the key is being sensed, i.e. with a

very low duty cycle. Each additional key being detected will

also create a low pulse for that key

’

s burst. During all other

times, the LED pin will be off (high).

This pin can be used to alert the host that there is key activity,

in order to further limit the amount of communication between

the device and the host. The LED / Alert line should ideally be

connected to an interrupt pin on the host that can detect a

negative edge, following which the host can proceed to poll

the device for keys.

This line also pulls low if there is a key error of any kind.

Note that in sleep mode if the LED was on prior to sleep, it

will remain on during sleep.

3.16 Oscilloscope Sync

See also Command ^R, page 26

The

‘

’

pin can output an oscilloscope sync signal which is

a positive pulse that brackets the burst of a selected key. This

feature is controlled by the ^R command. More than one burst

can output a sync pulse, for example if the scope of the

command when set is a row or column, or is all keys. The ^R

command is volatile and does not survive a reset or power

down.

This feature is invaluable for diagnostics; without it, observing

signals clearly on an oscilloscope for a particular burst is

nearly impossible.

This function is supported in QmBtn PC software via a

checkbox.

3.17 Power Supply & PCB Layout

Vdd should be 5.0 volts

/- 5%. This can be provided by a

common 78L05 3-terminal regulator. LDO type regulators are

often fine but can suffer from poor transient load response

which may cause erratic signal behavior.

If the power supply is shared with another electronic system,

care should be taken to assure that the supply is free of

low-level spikes, sags, and surges which can adversely affect

the circuit. The devices can track slow changes in Vcc

depending on the settings of drift compensation, but signals

can be adversely affected by rapid voltage steps and impulse

noise on the supply rail.

Supply bypass capacitors of 0.1uF to a ground plane should

be used near every supply pin of every active component in

the circuit.

PCB layout:

The PCB layout should incorporate a ground

plane under the entire circuit; this is easily possible with a

2-layer design. The ground plane should be broken up as

little as possible. Internal nodes of the circuit can be quite

sensitive to external noise and the circuit should be kept

away from stray magnetic and electric fields, for example

those emanating from mains power components such as

transformers and power capacitors. If proximity to such

components is unavoidable, an electrostatic shield may be

required.

The use of the Sync feature (Section 3.14) can be invaluable

in reducing these types of noise sources, but only up to a

point.

3.18 ESD / Noise Considerations

In general the QT60161B will be well protected from static

discharge during use by the overlying panel. However, even

with a dielectric panel transients currents can still flow into

scan lines via induction or in extreme cases, dielectric

breakdown. Porous or cracked materials may allow a spark to

tunnel through the panel. In all cases, testing is required to

reveal any potential problems. The IC has diode protected

pins which can absorb and protect the device from most

induced discharges, up to 5mA.

The X lines are not usually at risk during operation, since they

are low-resistance output drives. Diode clamps can be used

on the X and Y matrix lines if desired. The diodes should be

high speed / high current types such as BAV99 dual diodes,

connected from Vdd to Vss with the diode junction connected

to the matrix pin. Diode arrays can also be used.

Capacitors placed on the X and Y matrix lines can also help

to a limited degree by absorbing ESD transients and lowering

induced voltages. Values up to 100pF on the X lines and

22pF on the Y lines can be used.

The circuit can be further protected by inserting series

resistors into the X and/or Y lines to limit peak transient

current. RC networks as shown in Figures 4-6 and 4-7 can

provide enhanced protection against ESD while also limiting

the effects of external EMI should this be a problem.

External field interference can occur in some cases; these

problems are highly dependent on the interfering frequency

and the manner of coupling into the circuit. PCB layout

(Section 3.17) and external wiring should be carefully

designed to reduce the probability of these effects occurring.

SPI / UART data noise:

In some applications it is necessary

to have the host MCU at a distance from the sensor, perhaps

with the interface coupled via ribbon cable. The SPI link is

particularly vulnerable to noise injection on these lines;

corrupted or false commands can be induced from transients

on the power supply or ground wiring. Bypass capacitors and

series resistors can be used to prevent these effects as

shown in Figures 4-6 and 4-7.

4 Communications Interfaces

The QT60161B uses parallel, UART, and SPI interfaces to

communicate with a host MCU. The serial interfaces use a

protocol described in Section 5. Only one interface can be

used at a time; the interface type is selected by

resistor-coupled jumpers connected to pins X0OPA (pin 13)

and X0OPB (pin 14) shown in Table 4-1. See also Figure 3-2.

Further specific information on each interface type is

contained in the following sections

SPI Slave-Only Mode

SPI Master-Slave Mode

UART Interface

Parallel Interface

Section 4.3

Section 4.4

Section 4.5

Section 4.7

4.1 Serial Protocol Overview

The SPI and UART interface protocols are based entirely on

polled data transmission, that is, the part will not send data to

the host of its own volition but will do so only in response to

specific commands from a host.

Quantum Research Group Ltd.

www.qprox.com QT60161B / R1.03

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QT60161B-ASG	功能描述:IC SENSOR MTRX TOUCH 16CH 44TQFP RoHS:是類別:集成電路 (IC) >> 數(shù)據(jù)采集 - 觸摸屏控制器系列:QMatrix™ 標(biāo)準(zhǔn)包裝:96 系列:- 類型:- 觸摸面板接口:- 輸入數(shù)/鍵:- 分辨率（位）:- 評(píng)估套件:* 數(shù)據(jù)接口:- 數(shù)據(jù)速率/采樣率 (SPS，BPS):- 電壓基準(zhǔn):- 電源電壓:- 電流 - 電源:- 工作溫度:- 安裝類型:表面貼裝封裝/外殼:16-TSSOP（0.173"，4.40mm 寬）供應(yīng)商設(shè)備封裝:16-TSSOP 包裝:帶卷 (TR)
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