Linx-technologies SDM-USB-QS-S Uživatelský manuál stáhnout pdf (Strana 9)

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12 13

PDN

RSSI

DATA

AUDIO

AREF

USBDM

GND DSR

DATA_IN

DATA_OUT

RTS

CTS

DTR

TX_IND

VCC

SUSP_IND

RX_IND

485_TX

DCD

DAT-

DAT+

SDM-USB-

S-S

RXM-XXX-E

VCC

220

ANT

LVL AD

PDN

/CLK

DATA

GND

LOW V DET

/CLK SEL

TXM-XXX-E

USBDP

USBDM

GND D

DATA

CTS

DTR

TX_IND

VCC

SUSP_IND

RX_IND

485_TX

USB T

onnecto

DAT-

DAT+

SDM-USB-QS-S

USB T

onnecto

Figure 13: Wireless Modem Using ES Series RF Modules

TX Side

RX Side

Figure 14 below shows the QS module connected to a microprocessor.

This is the design used in the QS Master Development Kit and the

documentation for the kit describes the connections and software.

USBDP

USBDM

GND DSR

DATA_IN

DATA_OUT

RTS

CTS

DTR

TX_IND

VCC

SUSP_IND

RX_IND

485_TX

DCD

USB Type B

onnecto

DAT -

DAT+

SDM-USB-QS-S

VCC

RA2/AN2

RA3/AN3

RA4/AN4

MCLR/VPP

GND

RB0/INT

RB1

RB2/RX

RB3

RB4

RB5/TX

RB7

RA7

RA1

PIC16F88

220

W-P

00K

220

VCC

220

Typical Applications

There are many potential uses for the QS Series modules, three of which

will be described here. Figure 12 shows the QS and a MAX213 RS-232

level converter IC from Maxim. This creates a USB-to-RS-232 converter

that supports all of the standard handshaking lines. Similarly, RS-485 or

RS-422 level converter chips could be used for designs requiring those

standards.

The QS Series modules can be used with Linx RF modules to create a

wireless link between two PCs. Figure 13 shows a design using the ES

Series RF modules. An option not shown in the schematic below is that

one of the output lines of the QS module (RTS or DTR) could be connected

to the PDN lines of the RF modules, enabling the host to turn the RF

modules on and off.

400k

VCC

400k

VCC

400k

VCC

400k

VCC

7T1IN

OUT

6T2

T2OUT

OUT

T3IN20

21 T4

T4OUT

R1OUT

R1IN

5R2

OUT

R2IN

R3IN

R3OUT26

22 R4

OUT

R4IN

R5IN

R5OUT19

GND

SHDN

24 EN

+10V TO -10V

VOLTAGE INVERTER

+5V TO =10V

VOLTAGE DOUBLER

C2+

C2-

0.1uF

16V

C1+

C1-

0.1uF

6.3V

0.1uF

6.3V

0.1uF

16V

VCC

V+

V-

+5V INPUT

GND

SHDN

C2+

C2-

C1+

C1-

VCC

V+

V-

0.1uF

16V

0.1uF

6.3V

0.1uF

6.3V

0.1uF

16V

T1IN T1OUT

T2IN T2OUT

T3OUTT3IN

20 1

2821

OUT

R1OUT R1IN

R2OUT R2IN

R3INR3OUT

R4OUT R4IN

R5INR5OUT

VCC

DSR2

DCD2

TX DATA2

RI2

DTR2

RTS2

RX DATA2

CTS2

DSR

DCD

TX DATA

DTR

RTS

RX DATA

CTS

MAX213

SUSP_IND

VCC

DCD2

DSR2

RTS2

CTS2

DTR2

RI2

TX DATA2

RX DATA2

DB9M

USBDP

USBDM

GND DSR

DATA_IN

DATA_OUT

RTS

CTS

DTR

TX_IND

VCC

SUSP_IND

RX_IND

485_TX

DCD

USB Type B

onnecto

GND

DAT-

DAT+

GND

SDM-USB-QS-S

VCC

220

DSR

DCD

TX DATA

DTR

RTS

RX DATA

CTS

SUSP_IND

Figure 12: RS-232 to USB Converter

Figure 14: Interface with a Microprocessor

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