EVM-900-PRC-CAS [LINX]

HumPRCTM Series Evaluation Module;


型号：	EVM-900-PRC-CAS
厂家：	Linx Technologies
描述：	HumPRCTM Series Evaluation Module
文件：	总16页 (文件大小：814K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

HumPRC^TMSeries

Evaluation Module

Data Guide

Warning: Some customers may want Linx radio frequency (“RF”)

products to control machinery or devices remotely, including machinery

or devices that can cause death, bodily injuries, and/or property

damage if improperly or inadvertently triggered, particularly in industrial

settings or other applications implicating life-safety concerns (“Life and

Property Safety Situations”).

NO OEM LINX REMOTE CONTROL OR FUNCTION MODULE

SHOULD EVER BE USED IN LIFE AND PROPERTY SAFETY

SITUATIONS. No OEM Linx Remote Control or Function Module

should be modiﬁed for Life and Property Safety Situations. Such

modiﬁcation cannot provide sufﬁcient safety and will void the product’s

regulatory certiﬁcation and warranty.

Customers may use our (non-Function) Modules, Antenna and

Connectors as part of other systems in Life Safety Situations, but

only with necessary and industry appropriate redundancies and

in compliance with applicable safety standards, including without

limitation, ANSI and NFPA standards. It is solely the responsibility

of any Linx customer who uses one or more of these products to

incorporate appropriate redundancies and safety standards for the Life

and Property Safety Situation application.

Do not use this or any Linx product to trigger an action directly

from the data line or RSSI lines without a protocol or encoder/

decoder to validate the data. Without validation, any signal from

another unrelated transmitter in the environment received by the module

could inadvertently trigger the action.

All RF products are susceptible to RF interference that can prevent

communication. RF products without frequency agility or hopping

implemented are more subject to interference. This module does have

a frequency hopping protocol built in, but the developer should still be

aware of the risk of interference.

Do not use any Linx product over the limits in this data guide.

Excessive voltage or extended operation at the maximum voltage could

cause product failure. Exceeding the reﬂow temperature proﬁle could

cause product failure which is not immediately evident.

Do not make any physical or electrical modiﬁcations to any Linx

product. This will void the warranty and regulatory and UL certiﬁcations

and may cause product failure which is not immediately evident.

Table of Contents

1 Description

2 Ordering Information

3 Absolute Maximum Ratings

4ꢀ ElectricalꢀSpeciﬁcations

5 Pad Layout

6 Pin Assignments

6 Pin Descriptions

8 Schematic

9 Power Supply Requirements

10 Dimensions

HumPRC^TMSeries Evaluation Module

Data Guide

Figure 1: HumPRC^TMSeries Evaluation Modules; from left: EVM-***-PRC, EVM-***-PRC-CAS, EVM-***-PRC-UFL

Description

The HumPRC^TMSeries is the most complete system to integrate

bi-directional remote control into many different applications. No

programming is required and both module and ﬁnished hardware options

are available, making it the easiest solution to implement.

The module provides long-range transmission at 868MHz and 900MHz for

multi-region operation, utilizing frequency hopping and industry-standard

encryption for secure and robust communications. The HumPRC^TM

Series interoperates with Linx’s HumPRO^TMfamily, making it the only

remote control solution that simultaneously supports data applications for

seamless integration with sensor and control IoT applications.

The evaluation module contains the surface mount HumPRC^TMSeries

transceiver module on a board with through-hole headers. This small board

simpliﬁes prototyping with the HumPRC^TMSeries module, allowing it to be

integrated into a host PCB without requiring any soldering.

There are three versions of the evaluation module, populated with the

three versions of the HumPRC^TMSeries module. The standard version has

the standard module and an MMCX connector for use with the Master

Development System. The “-CAS” version has an edge-mount SMA

(868MHz) or RP-SMA (900MHz) connector for the antenna . The “-UFL”

version uses the module’s on-board U.FL connector for the antenna.

–

Revised 10/15/2018

Ordering Information

Part Number

Description

868MHz HumPRC™ Series Carrier Board, Not Certiﬁed,

Through-Hole Pin Interface, MMCX Connector for the

Development System

EVM-868-PRC

900MHz HumPRC™ Series Carrier Board, Not Certiﬁed,

Through-Hole Pin Interface, MMCX Connector for the

Development System

EVM-900-PRC

868MHz HumPRC™ Series Carrier Board, Through-Hole Pin

Interface, SMA Connector

EVM-868-PRC-CAS

EVM-868-PRC-UFL

EVM-900-PRC-CAS

EVM-900-PRC-UFL

HUM-868-PRC

868MHz HumPRC™ Series Carrier Board, Through-Hole Pin

Interface, U.FL / MHF Compatible Connector

900MHz HumPRC™ Series Carrier Board, Through-Hole Pin

Interface, RP-SMA Connector, FCC & IC Certiﬁed

900MHz HumPRC™ Series Carrier Board, Through-Hole Pin

Interface, U.FL / MHF Compatible Connector, FCC & IC Certiﬁed

868MHz HumPRC™ Series Remote Control Transceiver,

Castellation Interface, External Antenna Connection

900MHz HumPRC™ Series Remote Control Transceiver,

Castellation Interface, External Antenna Connection

HUM-900-PRC

868MHz HumPRC™ Series Remote Control Transceiver,

Castellation Interface, External Antenna Connection

HUM-868-PRC-CAS

HUM-868-PRC-UFL

868MHz HumPRC™ Series Remote Control Transceiver,

Castellation Interface, U.FL / MHF Compatible Connector

900MHz HumPRC™ Series Remote Control Transceiver,

HUM-900-PRC-CAS Castellation Interface, External Antenna Connection, FCC & IC

Certiﬁed

900MHz HumPRC™ Series Remote Control Transceiver,

HUM-900-PRC-UFL Castellation Interface, U.FL / MHF Compatible Connector, FCC &

IC Certiﬁed

MDEV-868-PRC

MDEV-900-PRC

MDEV-PGDOCK

MDEV-PROTO

CON-SOC-EVM

868MHz HumPRC™ Series Master Development System

900MHz HumPRC™ Series Master Development System

Development System Programming Dock

Development System Prototype Board

EVM Module Socket Kit

Figure 2: Ordering Information

–

Absolute Maximum Ratings

Supply Voltage V_cc

−0.3

+3.9

VDC

dBm

ºC

Any Input or Output Pin

RF Input

V_CC+ 0.3

Operating Temperature

Storage Temperature

−40

+85

ºC

Exceeding any of the limits of this section may lead to permanent damage to the device.

Furthermore, extended operation at these maximum ratings may reduce the life of this

device.

Figure 3: Absolute Maximum Ratings

Warning: This product incorporates numerous static-sensitive

components. Always wear an ESD wrist strap and observe proper ESD

handling procedures when working with this device. Failure to observe

this precaution may result in module damage or failure.

–

ElectricalꢀSpeciﬁcations

HumPRC^TMSeries Transceiver Speciﬁcations

Parameter

Symbol

Min.

Typ.

Max.

Units Notes

Power Supply

Operating Voltage

TX Supply Current

at +10dBm

V_CC

2.0

3.6

VDC

l_CCTX

40.5

41.5

µA

1,2

at 0dBm

RX Supply Current

Power-Down Current

RF Section

l_CCRX

23.5

0.7

24.5

1.4

1,2,3

1,2

l_PDN

Operating Frequency Band

EVM-900-PRC

F_C

MHz

902

863

928

870

EVM-868-PRC

RF Data Rate

EVM-900-PRC

19.2

9.6

152.34

115.2

kbps

EVM-868-PRC

38.4

Serial Data Rate

Receiver Sensitivity

EVM-900-PRC @min rate

EVM-900-PRC @max rate

EVM-868-PRC

–98

–91

–97

–101

–94

dBm

–100

Output Power

P_O

EVM-900-PRC

+8.5

+9.5

dBm

EVM-868-PRC

+10.6

Antenna Port

RF Impedance

Environmental

R_IN

Operating Temp. Range

−40

+85

ºC

1. Measured at 3.3V V_CC

2. Measured at 25ºC

4. Characterized but not tested

5. PER = 5%

3. Input power < -60dBm

6. Into a 50-ohm load

Figure 4: Electrical Speciﬁcations

Please see the HumPRC^TMSeries Transceiver module data guide for full

electrical speciﬁcations.

–

Pad Layout

Figure 5 shows the recommended PCB layout for the EVM-fff-PRC

evaluation module. This is used with the CON-SOC-EVM socket and

connector set and is implemented on the Master Development System.

Figure 6 shows the recommended PCB layout for the EVM-fff-PRC-CAS

and EVM-fff-PRC-UFL. These variants do not use the MMCX connector for

the antenna, but are otherwise the same.

0.05”

0.045”

0.05”

0.065”

0.05”

0.09”

5 x Ø0.035”

0.075”

51 x Ø0.026”

0.05” 1.17”

0.80”

0.18”

0.05”

0.07”

0.05”

0.97”

Figure 5: EVM-fff-PRC PCB Layout Dimensions

0.09”

51 x Ø0.026”

0.05” 1.17”

0.80”

0.18”

0.07”

0.05”

0.97”

Figure 6: EVM-fff-PRC-CAS and EVM-fff-PRC-UFL PCB Layout Dimensions

–

Pin Assignments

38 S0

39 S1

ANTENNA

2-5 GND (RF Connector)

40 S2

GND

RESET

MODE_IND

CMD_DATA_IN

41 S3

42 S4

POWER_DOWN 10

NC 12

11 LATCH_EN

13 ACK_EN

15 CMD_DATA_OUT

17 VCC

19 C0

21 C1

23 NC

25 NC

27 NC

29 NC

31 NC

33 NC

35 NC

43 S5

44 S6

45 S7

PAIR 14

LNA_EN 16

NC 18

PA_EN 20

NC 22

46 ACK_OUT

47 NC

48 NC

49 NC

50 NC

51 NC

52 NC

53 NC

54 NC

55 NC

56 NC

NC 24

NC 26

NC 28

NC 30

NC 32

NC 34

NC 36

37 NC

Figure 7: EVM-fff-PRC Pin Assignments

Pin Descriptions

Pin Number

Name

ANTENNA

GND

I/O Description

—

50-ohm RF Antenna Port

Ground

2, 3, 4, 5, 6

Mode Indicator. This line indicates module

activity. It can source enough current to drive

a small LED, causing it to ﬂash. The duration

of the ﬂashes indicates the module’s current

state.

MODE_IND

This line resets the module when pulled low.

It should be pulled high for normal operation.

RESET²

Command Data In. Input line for the serial

interface commands. If serial control is not

used, this line should be tied to supply to

minimize current consumption.

CMD_DATA_IN

Power Down. Pulling this line low places the

module into a low-power state. The module

is not functional in this state. Pull high for

normal operation. Do not leave ﬂoating.

POWER_DOWN

LATCH_EN

If this line is high, then the status line outputs

are latched (a received command to activate

a status line toggles the output state). If low,

then the output lines are momentary (active

for as long as a valid signal is received).

–

Pin Descriptions

Pin Number

Name

I/O Description

12, 18,

No Electrical Connection. Do not connect

—

22–37, 47-56

any traces to these lines.

Pull this line high to enable the module to

send an acknowledgement message after a

valid control message has been received.

ACK_EN

A high on this line initiates the Pair process,

which causes two units to accept each

other’s transmissions. It is also used with

a special sequence to reset the module to

factory default conﬁguration.

PAIR¹

Command Data Out. Output line for data

and serial commands

CMD_DATA_OUT

Low Noise Ampliﬁer Enable. This line is

driven high when receiving. It is intended to

activate an optional external LNA.

LNA_EN

VCC

—

Supply Voltage

This line sets the input/output direction for

status lines S0-S3. When low, the lines are

outputs; when high they are inputs.

Power Ampliﬁer Enable. This line is driven

high when transmitting. It is intended to

activate an optional external power ampliﬁer.

PA_EN

This line sets the input/output direction for

status lines S4-S7. When low, the lines are

outputs; when high they are inputs.

Status Lines. Each line can be conﬁgured

as either an input to register button or

contact closures or as an output to control

application circuitry.

38–45

S0–S7¹

I/O

This line goes high when the module

receives an acknowledgement message

from another module after sending a control

message.

ACK_OUT

1. These lines have an internal 20kΩ pull-down resistor

2. These lines have an internal 10kΩ pull-up resistor

Figure 8: EVM-fff-PRC Pin Descriptions

–

Schematic

Figure 9 shows the schematic diagram for the evaluation module.

V C

R E S E T

L A T C H _ E N N

L A T C H _ E

2 1

R E S E T

1 3

P O W E R _ D N O W P D N

2 2

L N A _ E

1 2

L N A _ E

P A _ E N

C 1

C 0

G N

S 0

S 1

S 2

S 3

C 1

C 0

2 3

1 1

1 0

P A _ E N

2 4

G N

2 5

C M D _ D A T A _ O U T

2 6

C M D _ D A T A _ O U T

C M D _ D A T A _ I

S 0

S 1

S 2

S 3

C M D _ D A T A N _ I

2 7

A C K _ E N

2 8

P A I

R P A I

2 9

Figure 9: EVM-fff-PRC Schematic

–

Power Supply Requirements

The module does not have an internal voltage regulator, therefore it requires

a clean, well-regulated power source. The power supply noise should be

less than 20mV. Power supply noise can signiﬁcantly affect the module’s

performance, so providing a clean power supply for the module should be

a high priority during design.

Vcc TO

MODULE

A 10Ω resistor in series with the supply followed

10Ω

by a 10μF tantalum capacitor from V_ccto ground ^{Vcc IN}

helps in cases where the quality of supply power

10µF

is poor. This ﬁlter should be placed close to the

module’s supply lines. These values may need to

be adjusted depending on the noise present on

the supply line.

Figure 10: Supply Filter

–

Dimensions

The ﬁgures below show the dimensions for the three variants of the

module.

8.35 mm

(0.329 in)

29.72 mm

(1.170 in)

26.64 mm

(0.970 in)

2.79 mm

(0.110 in)

6.09 mm

(0.240 in)

Figure 11: EVM-fff-PRC Dimensions

29.72 mm

(1.170 in)

26.64 mm

(0.970 in)

6.53 mm

(0.257 in)

9.83 mm

(0.387 in)

Figure 12: EVM-fff-PRC-UFL Dimensions

–

11.51 mm

(0.453 in)

7.54 mm

(0.297 in)

5.98 mm

(0.235 in)

4.24 mm

(0.167 in)

Ø6.35 mm

(0.25 in)

Ø7.93 mm

(0.312 in)

37.43 mm

(1.473 in)

29.72 mm

(1.170 in)

26.64 mm

(0.970 in)

6.53 mm

(0.257 in)

9.83 mm

(0.387 in)

Figure 13: EVM-fff-PRC-CAS Dimensions

–

Linx Technologies

159 Ort Lane

Merlin, OR, US 97532

Phone: +1 541 471 6256

Fax: +1 541 471 6251

www.linxtechnologies.com

Disclaimer

Linx Technologies is continually striving to improve the quality and function of its products. For this reason, we

reserve the right to make changes to our products without notice. The information contained in this Data Guide

is believed to be accurate as of the time of publication. Speciﬁcations are based on representative lot samples.

Values may vary from lot-to-lot and are not guaranteed. “Typical” parameters can and do vary over lots and

application. Linx Technologies makes no guarantee, warranty, or representation regarding the suitability of any

product for use in any speciﬁc application. It is the customer’s responsibility to verify the suitability of the part for

the intended application. NO LINX PRODUCT IS INTENDED FOR USE IN ANY APPLICATION WHERE THE SAFETY

OF LIFE OR PROPERTY IS AT RISK.

Linx Technologies DISCLAIMS ALL WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR

PURPOSE. IN NO EVENT SHALL LINX TECHNOLOGIES BE LIABLE FOR ANY OF CUSTOMER’S INCIDENTAL OR

CONSEQUENTIAL DAMAGES ARISING IN ANY WAY FROM ANY DEFECTIVE OR NON-CONFORMING PRODUCTS

OR FOR ANY OTHER BREACH OF CONTRACT BY LINX TECHNOLOGIES. The limitations on Linx Technologies’

liability are applicable to any and all claims or theories of recovery asserted by Customer, including, without

limitation, breach of contract, breach of warranty, strict liability, or negligence. Customer assumes all liability

(including, without limitation, liability for injury to person or property, economic loss, or business interruption) for

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defend, protect, and hold harmless Linx Technologies and its ofﬁcers, employees, subsidiaries, afﬁliates,

distributors, and representatives from and against all claims, damages, actions, suits, proceedings, demands,

assessments, adjustments, costs, and expenses incurred by Linx Technologies as a result of or arising from any

Products sold by Linx Technologies to Customer. Under no conditions will Linx Technologies be responsible for

losses arising from the use or failure of the device in any application, other than the repair, replacement, or refund

limited to the original product purchase price. Devices described in this publication may contain proprietary,

patented, or copyrighted techniques, components, or materials. Under no circumstances shall any user be

conveyed any license or right to the use or ownership of such items.

The stylized Linx logo, Wireless Made Simple, WiSE, CipherLinx and the stylized CL logo are trademarks of Linx Technologies.

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