u blox JODYW164 WLAN/Bluetooth host-based multiradio module JODY-W1 User Manual JODY W1 series

u-blox AG WLAN/Bluetooth host-based multiradio module JODY-W1 JODY W1 series

Data Sheet

JODY-W1 series

Host-based multiradio modules with Wi-Fi

and Bluetooth

Data Sheet

Abstract

This technical data sheet describes the JODY-W1 series modules

with 2x2 MIMO 802.11n/ac and dual-mode Bluetooth® v4.2.

JODY-W1 is ideal for in-vehicle-infotainment and telematics

applications with simultaneous use cases requiring high data rates,

such as in-car hotspots, Wi-Fi display applications such as Apple

CarPlay, or video streaming across multiple clients. Connection to a

host processor is through PCIe, SDIO, or High-Speed UART

interfaces.

www.u-blox.com

UBX-16013635 -

R10_draft

JODY-W1 series - Data Sheet

UBX-16013635 - R10_draft Confidential Page 2 of 50

Document Information

Title

JODY-W1 series

Subtitle

Host-based multiradio modules with Wi-Fi and Bluetooth

Document type

Data Sheet

Document number

UBX-16013635

Revision and date

R10_draft

15-Jun-2018

Disclosure restriction

Confidential

Product Status

Corresponding content status

Functional Sample

Draft

For functional testing. Revised and supplementary data will be published later.

In Development /

Prototype

Objective Specification

Target values. Revised and supplementary data will be published later.

Engineering Sample

Advance Information

Data based on early testing. Revised and supplementary data will be published later.

Initial Production

Early Prod. Information

Data from product verification. Revised and supplementary data may be published later.

Mass Production /

End of Life

Production Information

Final product specification.

This document applies to the following products:

Product name

Type number

Chipset

PCN reference

Product Status

JODY-W163-A

JODY-W163-04A-00

CYW89359

N/A

Engineering Sample

JODY-W163-A

JODY-W163-05A-00

CYW88359

N/A

Engineering Sample

JODY-W164-A

JODY-W164-03A-01

CYW89359

N/A

Engineering Sample

JODY-W164-A

JODY-W164-04A-00

CYW89359

N/A

Engineering Sample

JODY-W164-A

JODY-W164-05A-00

CYW88359

N/A

Engineering Sample

JODY-W164-A

JODY-W164-07A-01

CYW88359

N/A

Engineering Sample

JODY-W167-A

JODY-W167-00A-00

CYW88359

N/A

Engineering Sample

JODY-W167-A

JODY-W167-03A-00

CYW89359

N/A

Engineering Sample

JODY-W167

JODY-W167-00B-00

CYW88359

N/A

Engineering Sample

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whole or in part be subject to intellectual property rights. Reproduction, use, modification or disclosure to third parties of this document or

any part thereof without the express permission of u-blox is strictly prohibited.

The information contained herein is provided “as is” and u-blox assumes no liability for the use of the information. No warranty, either

express or implied, is given, including but not limited, with respect to the accuracy, correctness, reliability and fitness for a particular purpose

of the information. This document may be revised by u-blox at any time. For most recent documents, visit www.u-blox.com.

u-blox is a registered trademark of u-blox Holding AG in the EU and other countries.

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Contents

Contents .............................................................................................................................. 3

1 Functional description .................................................................................................. 6

1.1 Overview .............................................................................................................................................. 6

1.2 Applications .......................................................................................................................................... 6

1.3 Product features ................................................................................................................................... 7

1.4 Product description ............................................................................................................................... 7

1.5 Block diagrams ..................................................................................................................................... 7

1.6 Operation modes .................................................................................................................................. 9

1.6.1 Dual-band ..................................................................................................................................... 9

1.6.2 Single-band ................................................................................................................................. 10

1.7 Supported features ............................................................................................................................. 11

1.7.1 Wi-Fi Features.............................................................................................................................. 11

1.7.2 Bluetooth features ....................................................................................................................... 11

1.7.3 General product features ............................................................................................................. 11

1.7.4 Compliance ................................................................................................................................. 11

2 Interfaces .................................................................................................................... 12

2.1 Host interface configuration ............................................................................................................... 12

2.2 SDIO interface .................................................................................................................................... 12

2.2.1 Default speed and High speed modes ......................................................................................... 13

2.2.2 SDR12, SDR25, SDR50 Modes (up to 100 MHz) (1.8 V) ............................................................... 14

2.2.3 SDR104 Mode (208 MHz) (1.8 V) ................................................................................................ 15

2.2.4 DDR50 Mode (50 MHz) (1.8 V) .................................................................................................... 16

2.3 PCI Express interface ........................................................................................................................... 17

2.4 High Speed UART interface ................................................................................................................. 18

2.5 PCM Interface ..................................................................................................................................... 19

2.5.1 PCM Interface specifications ........................................................................................................ 20

2.6 I²S Interface ........................................................................................................................................ 24

2.6.1 I2S Interface specifications ............................................................................................................ 24

2.7 LTE Coexistence interface ................................................................................................................... 25

3 Pin definition .............................................................................................................. 26

3.1 Pin description .................................................................................................................................... 26

4 Electrical specification ................................................................................................ 29

4.1 Absolute maximum ratings ................................................................................................................. 29

4.2 Operating conditions .......................................................................................................................... 29

4.3 Digital pad ratings .............................................................................................................................. 29

4.4 Wi-Fi power consumption ................................................................................................................... 30

4.5 Bluetooth power consumption ........................................................................................................... 31

4.6 Radio specifications ............................................................................................................................ 31

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4.6.1 Wi-Fi ........................................................................................................................................... 31

4.6.2 Bluetooth .................................................................................................................................... 32

5 Host drivers and firmware ......................................................................................... 33

5.1 General principle ................................................................................................................................ 33

5.2 Supported operating systems .............................................................................................................. 33

5.2.1 Linux ........................................................................................................................................... 33

6 Mechanical specifications .......................................................................................... 34

7 Approvals .................................................................................................................... 35

7.1 European Union regulatory compliance .............................................................................................. 35

7.2 FCC and IC compliance ...................................................................................................................... 35

7.2.1 FCC and ISED IDs ........................................................................................................................ 36

7.2.2 FCC compliance statement .......................................................................................................... 36

7.2.3 ISED compliance statement ......................................................................................................... 36

7.3 Certification in other countries ........................................................................................................... 38

7.4 Approved antennas ............................................................................................................................ 38

7.4.1 Wi-Fi operation............................................................................................................................ 38

7.4.2 Bluetooth operation .................................................................................................................... 38

7.5 Bluetooth qualification ....................................................................................................................... 39

7.5.1 Bluetooth host stack .................................................................................................................... 39

8 Product handling ........................................................................................................ 40

8.1 Packaging ........................................................................................................................................... 40

8.1.1 Reels ........................................................................................................................................... 40

8.1.2 Tapes .......................................................................................................................................... 40

8.2 Shipment, storage and handling ......................................................................................................... 40

8.2.1 Moisture sensitivity levels ............................................................................................................. 40

8.2.2 Mounting process and soldering recommendations ..................................................................... 41

8.2.3 ESD handling precautions ............................................................................................................ 42

9 Labeling and ordering information ........................................................................... 43

9.1 Product labeling .................................................................................................................................. 43

Table ...................................................................................................................................................... 44

9.2 Explanation of codes........................................................................................................................... 44

9.3 Ordering codes ................................................................................................................................... 44

Appendix .......................................................................................................................... 46

A Glossary ...................................................................................................................... 46

Related documents........................................................................................................... 48

Revision history ................................................................................................................ 49

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Contact .............................................................................................................................. 50

JODY-W1 series - Data Sheet

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1 Functional description

1.1 Overview

The JODY-W1 series is a compact module based on the Cypress CYW88359 and CYW89359 AEC-Q100

compliant chipsets. It enables Wi-Fi, Bluetooth®, and Bluetooth low energy communication, and is thus ideal for

in-vehicle-infotainment and telematics applications with simultaneous use cases requiring high data rates, such

as in-car hotspots, Wi-Fi display applications such as Apple CarPlay, or video streaming across multiple clients.

The JODY-W1 modules can be operated in the following modes:

 Wi-Fi 2x2 MIMO 802.11n/ac in 2.4 GHz or 5 GHz

 Wi-Fi 1x1 802.11ac in 2.4 / 5 GHz real simultaneous dual band

 Dual-mode Bluetooth v4.2, including audio, can be operated fully simultaneous with both Wi-Fi modes

The JODY-W1 undergoes extended automotive qualification according to ISO 16750-4 and is manufactured in

line with ISO/TS 16949. Connection to a host processor is through PCIe, SDIO, or High-Speed UART interfaces.

The radio type approvals for JODY-W1 is pending for many countries, and more certifications are planned.

1.2 Applications

Automotive applications

 In-car Access Point for internet access

 Usage of applications such as Apple CarPlay, Miracast etc., in the car

 Rear-seat display

 Rapid sync-n-go applications and fast content download to the vehicle

 Hands-free equipment (Bluetooth)

Industrial applications

 Manufacturing floor automation, wireless control terminals and point-to-point backhaul

 Machine control

 Medical in-hospital applications

 Security and surveillance

 Outdoor content distribution

 Robust wireless connectivity in a broad range of industrial applications

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1.3 Product features

Table 1: Key features of JODY-W1 series

1.4 Product description

Model

Description

JODY-W163-A

Automotive grade module with 2 antenna pins, RSDB mode with a single antenna pin. Support for SDIO host

interface only.

JODY-W164-A

Automotive grade module with 2 antenna pins, RSDB mode with a single antenna pin. Support for PCIe host

interface, except JODY-W164-07A-01.

JODY-W167-A

Automotive grade module with 3 antenna pins, RSDB mode with two antenna pins

JODY-W167

Professional grade module with 3 antenna pins, RSDB mode with two antenna pins

Table 2: Description of the module variants

JODY-W167-A is recommended for applications that need 802.11n 2x2 MIMO operation in the 2.4 GHz

band.

1.5 Block diagrams

The block diagrams of the JODY-W1 series are provided in this section.

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Figure 1: Block diagram of JODY-W163-A and JODY-W164-A

See Table 3 for available configurations and the corresponding product type numbers of JODY-W163-A and

JODY-W164-A.

Product type

Antenna configuration

Band-pass filters

ANT0

ANT1

BPF_1

BPF_2

JODY-W164-03A-01

5 GHz Wi-Fi and Bluetooth

2.4 and 5 GHz Wi-Fi (RSDB

operation supported)

Non-LTE coexistence

JODY-W163-04A-00,

JODY-W163-05A-00

JODY-W164-04A-00,

JODY-W164-05A-00

Bluetooth

2.4 and 5 GHz Wi-Fi (RSDB

operation supported)

Non-LTE coexistence

JODY-W164-07A-01

Bluetooth

2.4 and 5 GHz Wi-Fi (RSDB

operation supported)

LTE coexistence

Non-LTE coexistence

Table 3: Supported JODY-W164-A / JODY-W163-A configurations

JODY-W163-A and JODY-W164-A differ only in the offered host interface (SDIO or PCIe). The host

interface configuration is programmed at production time into the module.

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Figure 2: Block diagram of JODY-W167(-A)

1.6 Operation modes

1.6.1 Dual-band

 5 GHz Wi-Fi (1x1 SISO) / 2.4 GHz Wi-Fi (1x1 SISO) RSDB (+ Bluetooth). See Table 4 for further

information.

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2.4 GHz band

5 GHz band

Supported host interfaces

Notes

PCIe, SDIO

Any channel

STA

PCIe, SDIO

Any channel

P2P (GO)

PCIe, SDIO

Any channel. Supported via single

wpa supplicant.

P2P (GC)

PCIe, SDIO

Any channel. Supported via single

wpa supplicant.

STA

PCIe, SDIO

Any channel

STA

PCIe, SDIO

Any channel

P2P (GO)

PCIe, SDIO

Any channel

P2P (GO)

PCIe, SDIO

Any channel

P2P (GC)

PCIe, SDIO

Any channel

P2P (GC)

PCIe, SDIO

Any channel

P2P (GO)

STA

PCIe, SDIO

Any channel

STA

P2P (GO)

PCIe, SDIO

Any channel

P2P (GC)

STA

PCIe, SDIO

Any channel

STA

P2P (GC)

PCIe, SDIO

Any channel

AP+STA

PCIe, SDIO

Any channel. AP+STA on the

same 2.4 GHz channel.

AP+STA

PCIe, SDIO

Any channel. AP+STA on the

same 5 GHz channel.

AP+STA

P2P (GO)

PCIe, SDIO

Any channel. AP+STA on the

same 2.4 GHz channel.

P2P (GO)

AP+STA

PCIe, SDIO

Any channel. AP+STA on the

same 5 GHz channel.

P2P (GO) + STA

PCIe, SDIO

Any channel. P2P (GO) + STA on

the same 5 GHz channel.

P2P (GO) + STA

PCIe, SDIO

Any channel. P2P (GO) + STA on

the same 2.4 GHz channel.

P2P (GO)

P2P (GO) + STA

PCIe, SDIO

Any channel. P2P (GO) + STA on

the same 5 GHz channel.

P2P (GO) + STA

P2P (GO)

PCIe, SDIO

Any channel. P2P (GO) + STA on

the same 2.4 GHz channel.

Table 4: Supported RSDB configurations

1.6.2 Single-band

 5 GHz Wi-Fi (2x2 MIMO on JODY-W167(-A) and JODY-W164-03A-01)

 JODY-W163-A / JODY-W164-A: 2.4 GHz Wi-Fi (1x1 SISO) (+ Bluetooth)

 JODY-W167 / JODY-W167-A: 2.4 GHz Wi-Fi (2x2 MIMO) (+ Bluetooth)

Wi-Fi operation as AP, STA, P2P (GO), and P2P (GC) is supported on any 2.4 GHz or 5 GHz channel.

Configuration of simultaneous operation of AP+STA, P2P (GO)+STA and P2P (GC)+STA is also supported on the

same 2.4 or 5 GHz channel. These configurations are independent of the used host interface (PCIe or SDIO).

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1.7 Supported features

1.7.1 Wi-Fi Features

 Wi-Fi standards:

o IEEE 802.11a/b/g/n/ac/e/i/v/w/h

in station and access point modes

o IEEE 802.11d/u in station mode only

 Simultaneous client and access point operation (up to 10 clients supported in total)

 Supports Wi-Fi direct/P2P mode

 IEEE 802.11ac 2x2 antenna configuration

 IEEE 802.11 PHY data rates up to 866 Mbps

 WPA/WPA2 and WAPI STA encryption is supported by hardware

 WPA/WPA2 Enterprise 802.1X

 Wi-Fi channels:

o 2.4 GHz: 1-13

o 5 GHz: 36-165

 RSDB mode

 SU-MIMO configurations

 SDIO 3.0 host interface for Wi-Fi

 PCIe 3.0 at Gen1 speed host interface for Wi-Fi

 MWS/LTE coexistence serial transport interface for connecting an external and co-located LTE device

1.7.2 Bluetooth features

 Bluetooth v4.2 with Bluetooth Low Energy and Classic Bluetooth v2.1+EDR over high-speed UART

interface

 PCM / I2S interface for voice applications

 MWS/LTE coexistence serial transport interface for connecting an external and co-located LTE device

1.7.3 General product features

 Driver support for Linux 3.x/4.x

 Low-power and sleep modes for Bluetooth and Wi-Fi core

 Coexistence arbitration for Wi-Fi/Bluetooth/LE/LTE operation

 Small footprint (19.8 mm x 13.8 mm), LGA package

 Automotive qualification tests (climatic, mechanical, and operating life tests) according ISO 16750-4

planned

1.7.4 Compliance

 RoHS compliant

 Radio type approvals for Europe, USA, Canada, Japan, Korea, and Taiwan

The DFS master mode supported in non-RSDB firmware only.

The SDIO interface is supported only in Automotive grade.

Approvals are pending.

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2 Interfaces

2.1 Host interface configuration

JODY-W1 series module uses the Pin 6, Pin 7, and Pin 8 pins as host interface configuration input to set the

desired operation mode following a reset. When you need to configure the pins for a certain module operation

mode, you need to provide a 10 kΩ or less pull down resistor to the ground. No external circuitry is required to

set a configuration pin to high logical level.

External reset is not needed for proper operation due to internal power-up reset logic though it can be used by

the host controller through the WL_EN / BT_EN (active high) in case of an abnormal module behavior.

Depending on the module variant, either SDIO or PCIe Wi-Fi host interface must be used:

PCIe enable

Pin 6

SDIO disable

Pin 7

SDIO VDD select

Pin 8

VIO_SD supply

Pin 4

Wi-Fi interface

3.3 V or 1.8 V

PCIe

1.8 V

SDIO 1.8 V

3.3 V

SDIO 3.3 V

Table 5: Module configuration

JODY-W1 series modules are programmed at factory to support either SDIO or PCIe host interface.

The following sections specify the electrical characteristics of the two host interfaces. Refer to

Table 6 for an overview of the supported host interface by product type.

Product Name

Order Number

Host interface

JODY-W163-A

JODY-W163-04A

SDIO

JODY-W163-A

JODY-W163-05A

SDIO

JODY-W164-A

JODY-W164-03A

PCIe

JODY-W164-A

JODY-W164-04A

PCIe

JODY-W164-A

JODY-W164-05A

PCIe

JODY-W164-A

JODY-W164-07A

SDIO

JODY-W167-A

JODY-W167-00A

PCIe

JODY-W167-A

JODY-W167-03A

PCIe

JODY-W167

JODY-W167-00B

PCIe

Table 6: Supported host interfaces per product

2.2 SDIO interface

The SDIO device interface conforms to the industry standard SDIO 3.0 specification (UHS-I, up to 104 MByte/s)

and allows a host controller using the SDIO bus protocol to access the Wi-Fi functions of the JODY-W1 series

modules. The interface supports 4-bit SDIO transfer mode at the full clock range of 0 to 208 MHz.

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2.2.1 Default speed and High speed modes

Figure 3: SDIO Protocol timing diagram- Default speed mode (3.3 V)

Figure 4: SDIO Protocol timing diagram – High speed mode (3.3 V)

SDIO_CLK

INPUT

OUTPUT

tTHL

tWL

tWH

tTLH

tODLY

(max)

tODLY

(min)

tISU

tIH

SDIO_CLK

INPUT

OUTPUT

tTHL

tWL

tWH

tTLH

tODLY

tOH

tISU

tIH

50% VCC

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Symbol

Parameter

Condition

Min.

Typ

Max.

Units

fPP

Clock frequency – Data

Transfer Mode

Normal

MHz

High speed

MHz

fOD

Clock frequency –

Identification Mode

Normal

400

kHz

High speed

400

kHz

tWL

Clock low time

Normal

High speed

tWH

Clock high time

Normal

High speed

tTLH

Clock rise time

Normal

High speed

tTHL

Clock low time

Normal

High speed

tISU

Input setup time

Normal

High speed

tIH

Input hold time

Normal

High speed

tODLY

Output delay time – Data

Transfer Mode

Normal

High speed

tODLY

Identification Mode

Normal

tODLY

Output delay time CL ≤ 40 pF

(1 card)

Normal

tOH

Output hold time

High speed

2.5

Total system capacitance

(each line)

High speed

Table 7: SDIO Timing data – Default speed, High speed modes (3.3 V)

2.2.2 SDR12, SDR25, SDR50 Modes (up to 100 MHz) (1.8 V)

Figure 5: SDIO Protocol timing diagram – SDR12, SDR25, SDR50 modes (up to 100 MHz) (1.8 V)

SDIO_CLK

INPUT

OUTPUT

tCF

tCR

tODLY

tOH

tIS

tIH

50% VCC

CLK

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Symbol

Parameter

Condition

Min.

Typ

Max.

Units

fPP

Clock frequency

SDR12

MHz

SDR25

MHz

SDR50

100

MHz

tIS

Input setup time

SDR12/25/50

tIH

Input hold time

SDR12/25/50

0.8

tCLK

Clock time

SDR12/25/50

Clock duty

SDR12/25/50

tCR, tCF,

Rise time, fall time

TCR, TCF < 2 ns (max) at 100 MHz

CCARD = 10 pF

SDR12/25/50

0.2*TCLK

tODLY

Output delay time

CL ≤ 30 pF

SDR12/25

SDR50

7.5

tOH

Output hold time

CL = 15 pF

SDR12/25/50

1.5

Table 8: SDIO Timing data – SDR12, SDR25, SDR50 modes (up to 100 MHz) (1.8 V)

2.2.3 SDR104 Mode (208 MHz) (1.8 V)

Figure 6: SDIO Protocol timing diagram – SDR104 mode (208 MHz)

Symbol

Parameter

Condition

Min.

Typ

Max.

Units

fPP

Clock frequency

SDR104

208

MHz

TIS

Input setup time

SDR104

1.4

TIH

Input hold time

SDR104

0.8

TCLK

Clock time

SDR104

4.8

tCR, tCF,

Rise time, fall time

TCR, TCF < 0.96 ns (max) at 208 MHz

CCARD = 10 pF

SDR104

0.2*TCLK

TOP

Card output phase

SDR104

dTOP

Delay variation due to temperature change after

tuning

SDR104

-350

+1550

TODW

Output timing of variable data window

SDR104

0.6

Table 9: SDIO Timing data – SDR104 mode (208 MHz)

SDIO_CLK

INPUT

OUTPUT

tCF

tCR

tOP

tODW

tIS

tIH

50% VCC

CLK

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2.2.4 DDR50 Mode (50 MHz) (1.8 V)

Figure 7: SDIO CMD Timing diagram – DDR50 mode (50 MHz)

Figure 8: SDIO DAT[3:0] Timing diagram – DDR50 mode (50 MHz)

Symbol

Parameter

Condition

Min.

Typ

Max.

Units

Clock

TCLK

Clock time

50 MHz (max) between rising edges

DDR50

tCR, tCF,

Rise time, fall time

TCR, TCF < 4.00 ns (max) at 50 MHz

CCARD = 10 pF

DDR50

0.2*TCLK

Clock Duty

DDR50

CMD Input (referenced to clock rising edge)

tIS

Input setup time

CCARD ≤ 10 pF (1 card)

DDR50

tIH

Input hold time

CCARD ≤ 10 pF (1 card)

DDR50

0.8

CMD Output (referenced to clock rising edge)

tODLY

Output delay time during data transfer mode

CL ≤ 30 pF (1 card)

DDR50

13.7

tOHLD

Output hold time

CL ≥ 15 pF (1 card)

DDR50

1.5

DAT[3:0] Input (referenced to clock rising and falling edges)

tIS2x

Input setup time

CCARD ≤ 10 pF (1 card)

DDR50

tIH2x

Input hold time

CCARD ≤ 10 pF (1 card)

DDR50

0.8

SDIO_CLK

CMD INPUT

CMD OUTPUT

tCF

tCR

tODLY

tOHLD

tIS

tIH

50% VCC

CLK

SDIO_CLK

DAT INPUT

tCF

tCR

tISU2x

50% VCC

CLK

DAT OUTPUT

tIH2x

tISU2x

tIH2x

tODLY2x

(min)

tODLY2x

(max)

tODLY2x

(min)

tODLY2x

(max)

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Symbol

Parameter

Condition

Min.

Typ

Max.

Units

DAT[3:0] Output (referenced to clock rising and falling edges)

tODLY2x (max)

Output delay time during data transfer mode

CL ≤ 25 pF (1 card)

DDR50

7.5

tODLY2x (min)

Output hold time

CL ≥ 15 pF (1 card)

DDR50

1.5

Table 10: SDIO Timing data – DDR50 mode (50 MHz)

2.3 PCI Express interface

The PCI Express interface complies with the PCIe v3.0 standard at Gen1 speed and allows a host controller using

the PCIe bus protocol to access the Wi-Fi function of the JODY-W1 series modules. The following table shows

the parameters for the PCI Express interface.

Parameter

Symbol

Comments

Min.

Typ

Max.

Units

General

Baud rate

BPS

Gbaud

Reference clock

amplitude

Vref

LVPECL,

AC coupled

Receiver

Differential termination

ZRX-DIFF-DC

Differential termination

100

120

Ω

DC impedance

ZRX-DC

DC common-mode

impedance

Ω

Power down termination

(POS)

ZRX-HIGH-IMP-DC-POS

Power-down or RESET high

impedance

100k

Ω

Power down termination

(NEG)

ZRX-HIGH-IMP-DC-NEG

Power-down or RESET high

impedance

Ω

Input voltage

VRX-DIFFp-p

AC coupled, differential p-p

175

Jitter tolerance

TRX-EYE

Minimum receiver eye width

0.4

Differential return loss

RLRX-DIFF

Differential return loss

Common-mode return

loss

RLRX-CM

Common-mode return loss

Unexpected electrical idle

enter detect threshold

integration time

TRX-IDEL-DET-DIFF-

ENTERTIME

An unexpected electrical idle

must be recognized no longer

than this time to signal an

unexpected idle condition

Signal detect threshold

VRX-IDLE-DET-DIFFp-p

Electrical idle detect threshold

175

Transmitter

Output voltage

VTX-DIFFp-p

Differential p-p,

programmable in 16 steps

0.8

1200

Output voltage rise time

VTX-RISE

20% to 80%

0.125

(2.5 GT/s)

0.15

(5 GT/s)

Output voltage fall time

VTX-FALL

80% to 20%

0.125

(2.5 GT/s)

0.15

(5 GT/s)

RX detection voltage

swing

VTX-RCV-DETECT

The amount of voltage

change allowed during

receiver detection

600

TX AC peak common-

mode voltage (5 GT/s)

VTX-CM-AC-PP

TX AC common mode

voltage (2.5 GT/s)

100

TX AC peak common-

mode voltage (2.5 GT/s)

VTX-CM-AC-P

TX AC common mode

voltage (5 GT/s)

Absolute delta of DC

common-mode voltage

VTX-CM-DC-ACTIVE-IDLE-

DELTA

Absolute delta of DC

common-mode voltage

100

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Parameter

Symbol

Comments

Min.

Typ

Max.

Units

during L0 and electrical

idle

during L0 and electrical idle

Absolute delta of DC

common-mode voltage

between D+ and D-

VTX-CM-DC-LINE-DELTA

DC offset between D+ and D-

Electrical idle differential

peak output voltage

VTX-IDLE-DIFF-AC-p

Peak-to-peak voltage

TX short circuit current

ITX-SHORT

Current limit when TX output

is shorted to ground

DC differential TX

termination

ZTX-DIFF-DC

Low impedance defined

during signaling (parameter is

captured for 5.0 GHz by

RLTX-DIFF)

120

Ω

Differential return loss

RLTX-DIFF

Differential return loss

10 (min)

for 0.05:

1.25 GHz

Common-mode return

loss

RLTX-CM

Common-mode return loss

TX eye width

TTX-EYE

Minimum TX eye width

0.75

Table 11: PCI Express interface parameters

2.4 High Speed UART interface

The JODY-W1 series modules support a high speed Universal Asynchronous Receiver/Transmitter (UART)

interface in compliance with the industry standard 16550 specification. The main features of the UART interface

are:

 1040-bytes receive and transmit FIFO

 Automatic baud rate detection

 Supports Bluetooth 4.2 HCI specification

 2 pins for transmit and receive operations

 2 flow control pins

 Interrupt triggers for low-power, high throughput operation

 High throughput (4 Mbps)

Baud Rate

9600

115200 (default)

1000000

2100000

4000000

19200

230400

1382400

2764800

38400

460800

1500000

3000000

57600

500000

1843200

3250000

76800

921600

2000000

3692300

Table 12: Supported UART Baud rates

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Figure 9: UART Timing

Reference

Characteristic

Min.

Typ

Max.

Units

Delay time, BT_UART_CTS low to BT_UART_TX valid

1.5

Bit period

Setup time, BT_UART_CTS high before midpoint of stop bit

0.5

Bit period

Delay time, midpoint of stop bit to BT_UART_RTS high

0.5

Bit period

Table 13: UART Timing Specification

2.5 PCM Interface

The JODY-W1 series modules support a Pulse Code Modulation (PCM) interface that provides the following:

 Master or slave mode

 PCM bit width size of 8 bits or 16 bits

 Up to 16 slots with configurable bit width and start positions

 Short frame and long frame synchronization

 Burst PCM mode

The PCM pins of JODY-W1 series modules can be configured to either PCM or I²S interface through HCI

commands. The pin mapping information are described in section 2.6 I²S Interface.

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2.5.1 PCM Interface specifications

Figure 10: PCM Timing specification – Short Frame Sync., Master mode

Symbol

Parameter

Condition

Min.

Typ

Max.

Units

PCM clock frequency

MHz

PCM bit clock LOW

PCM bit clock HIGH

PCM_SYNC delay

PCM_OUT delay

PCM_IN setup

PCM_IN hold

Delay from rising edge of PCM_CLK

during last bit period to PCM_OUT

becoming high impedance

Table 14: PCM Timing specification – Short Frame Sync., Master mode

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Figure 11: PCM Timing specification – Short Frame Sync., Slave mode

Symbol

Parameter

Condition

Min.

Typ

Max.

Units

PCM clock frequency

MHz

PCM bit clock LOW

PCM bit clock HIGH

PCM_SYNC setup

PCM_SYNC hold

PCM_OUT delay

PCM_IN setup

PCM_IN hold

Delay from rising edge of PCM_CLK

during last bit period to PCM_OUT

becoming high impedance

Table 15: PCM Timing specification – Short Frame Sync., Slave mode

Figure 12: PCM Timing specification – Long Frame Sync., Master mode

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Symbol

Parameter

Condition

Min.

Typ

Max.

Units

PCM clock frequency

MHz

PCM bit clock LOW

PCM bit clock HIGH

PCM_SYNC delay

PCM_OUT delay

PCM_IN setup

PCM_IN hold

Delay from rising edge of PCM_CLK

during last bit period to PCM_OUT

becoming high impedance

Table 16: PCM Timing specification – Long Frame Sync., Master mode

Figure 13: PCM Timing specification – Long Frame Sync., Slave mode

Symbol

Parameter

Condition

Min.

Typ

Max.

Units

PCM clock frequency

MHz

PCM bit clock LOW

PCM bit clock HIGH

PCM_SYNC setup

PCM_SYNC hold

PCM_OUT delay

PCM_IN setup

PCM_IN hold

Delay from rising edge of PCM_CLK

during last bit period to PCM_OUT

becoming high impedance

Table 17: PCM Timing specification – Long Frame Sync., Slave mode

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Figure 14: PCM Burst mode timing specification – Short Frame Sync., Receiver only

Symbol

Parameter

Condition

Min.

Typ

Max.

Units

PCM clock frequency

MHz

PCM bit clock LOW

20.8

PCM bit clock HIGH

20.8

PCM_SYNC setup

PCM_SYNC hold

PCM_IN setup

PCM_IN hold

Table 18: PCM Burst mode timing specification – Short Frame Sync., Receiver only

Figure 15: PCM Burst mode timing specification – Long Frame Sync., Receiver only

Symbol

Parameter

Condition

Min.

Typ

Max.

Units

PCM clock frequency

MHz

PCM bit clock LOW

20.8

PCM bit clock HIGH

20.8

PCM_SYNC setup

PCM_SYNC hold

PCM_IN setup

PCM_IN hold

Table 19: PCM Burst mode timing specification – Long Frame Sync., Receiver only

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2.6 I²S Interface

The JODY-W1 series modules support I2S interface that provides clock rate in master mode 1.536 MHz (32 bits

per frame) or 2.400 MHz (50 bits per frame).

This interface is addressable over the PCM pins, which can be routed to the I²S interface through HCI

commands. The following I²S signals are mapped with the PCM pins:

PCM_CLK  I2S clock, can be master (output) or slave (input)

PCM_SYNC  I2S WS, can be master (output) or slave (input)

PCM_OUT  I2S data output

PCM_IN  I2S data input

2.6.1 I2S Interface specifications

Figure 16: I²S Transmitter timing

Figure 17: I²S Receiver timing

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Transmitter

Receiver

Notes

Lower Limit

Upper Limit

Lower Limit

Upper Limit

Min.

Max.

Min.

Max.

Min.

Max.

Min.

Max.

Clock Period T

Ttr

Master Mode: Clock generated by transmitter or receiver

HIGH tHC

0.35Ttr

Low tLC

0.35Ttr

Slave Mode: Clock accepted by transmitter or receiver

HIGH tHC

0.35Ttr

Low tLC

0.35Ttr

Rise time tRC

0.15Ttr

Transceiver

Delay tdtr

0.8Ttr

Hold time thtr

Receiver

Setup time tsr

0.2Tr

Hold time thr

Table 20: Timing for I²S Transmitters and Receivers

a. The system clock period T must be greater than Ttr and Tr because both the transmitter and receiver have to

be able to handle the data transfer rate.

b. At all data rates in master mode, the transmitter or receiver generates a clock signal with a fixed mark/space

ratio. For this reason, tHC and tLC are specified with respect to T.

c. In slave mode, the transmitter and receiver need a clock signal with minimum HIGH and LOW periods so

that they can detect the signal. So long as the minimum periods are greater than 0.35Tr, any clock that

meets the requirements can be used.

d. Because the delay (tdtr) and the maximum transmitter speed (defined by Ttr) are related, a fast transmitter

driven by a slow clock edge can result in tdtr not exceeding tRC which means thtr becomes zero or negative.

Therefore, the transmitter has to guarantee that thtr is greater than or equal to zero, so long as the clock rise-

time tRC is not more than tRCmax, where tRCmax is not less than 0.15Ttr.

e. To allow data to be clocked out on a falling edge, the delay is specified with respect to the rising edge of

the clock signal and T, always giving the receiver sufficient setup time.

f. The data setup and hold time must not be less than the specified receiver setup and hold time.

2.7 LTE Coexistence interface

An external handshake interface is available to enable signaling between the JODY-W1 series modules and an

external co-located wireless device to manage wireless medium sharing for optimal performance.

Firmware support pending. Contact u-blox for further information.

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3 Pin definition

3.1 Pin description

Figure 18: Pin assignment (top view)

No.

Name

Pin Type

Description

Power Supply

Domain

GND

Ground

VBAT

Power

3.2 V < VBAT < 4.8 V

VIO

Power

VIO Supply (1.8 V or 3.3 V)

VIO_SD

Power

VIO Supply (1.8 V or 3.3 V) for SDIO and PCIe Out-of-Band signals

GND

Ground

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No.

Name

Pin Type

Description

Power Supply

Domain

PCIE_EN

See Table 5 for Host Interface selection

VIO

SD_DES

See Table 5 for Host Interface selection

VIO

SD_VDD_SEL

See Table 5 for Host Interface selection

VIO

WL_DEV_WAKE

I/O

GPIO pin that can be used for Wi-Fi device wake-up signal.

Asserted: Wi-Fi device must wake-up or remain awake

De-asserted: Wi-Fi device may sleep when the sleep criteria is met.

VIO

WL_HOST_WAKE

I/O

GPIO pin that can be used for Wi-Fi HOST wake-up signal

Asserted: Host device must wake-up or remain awake

De-asserted: Host device may sleep when the sleep criteria is met

VIO

BT_DEV_WAKE

Bluetooth device wake-up signal:

Asserted: Bluetooth device must wake-up or remain awake

De-asserted: Bluetooth device may sleep when sleep criteria are met.

VIO

BT_HOST_WAKE

Bluetooth Host wake-up signal:

Asserted: Host device must wake-up or remain awake

De-asserted: Host device may sleep when sleep criteria are met

VIO

LTE_COEX_TX

Coexistence WCI2 interface. TX signal

VIO

LTE_COEX_RX

Coexistence WCI2 interface. RX signal

VIO

PCM_SYNC

I/O

PCM sync, can be output (master) or input (slave)

VIO

PCM_CLK

I/O

PCM clock, can be output (master) or input (slave)

VIO

PCM_OUT

PCM data output

VIO

PCM_IN

PCM data input

VIO

GND

Ground

GND

Ground

ANT2

I/O, RF

Antenna pin (refer to section 1.5 Block diagrams)

GND

Ground

GND

Ground

ANT0

I/O, RF

Antenna pin (refer to section 1.5 Block diagrams)

GND

Ground

ANT3

I/O, RF

Reserved antenna pin

GND

Ground

GND

Ground

ANT1

I/O, RF

Antenna pin (refer to section 1.5 Block diagrams)

GND

Ground

GND

Ground

I2S_DI

I/O

Reserved for I²S interface. Do not connect!

To connect a I²S interface the PCM pins can be used. The PCM interface can

be configured as an I²S interface. See chapter 2.5 for more information.

VIO

I2S_DO

I/O

VIO

I2S_CLK

I/O

VIO

I2S_WS

I/O

VIO

BT_UART_TX

Fast UART serial data output for the Bluetooth device

VIO

BT_UART_RX

Fast UART serial data input for the Bluetooth device

VIO

BT_UART_RTS

Fast UART active-low request-to-send signal for the Bluetooth device

VIO

BT_UART_CTS

Fast UART active-low clear-to-send signal for the Bluetooth device

VIO

PCIE_PME#

PCI power management event output

VIO_SD

PCIE_CLKREQ#

PCIe clock request signal

VIO_SD

PCIE_PERST#

PCIe System reset

VIO_SD

PCIE_REFCLKN

PCIe 100 MHz clock differential input, AC coupling capacitors 100 pF

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No.

Name

Pin Type

Description

Power Supply

Domain

PCIE_REFCLKP

included in the module.

PCIE_RDN

PCIe receiver differential input, DC coupled inputs, use 100 nF AC coupling

capacitors placed closer to the Host TDN/TDP differential output

PCIE_RDP

PCIE_TDN

PCIe transmitter differential output, AC coupling capacitors 100 nF included

in the module, connect to the Host RDN/RDP input directly

PCIE_TDP

GND

Ground

SD_D2

I/O

SDIO Data line bit [2]

VIO_SD

SD_D3

I/O

SDIO Data line bit [3]

VIO_SD

SD_CMD

I/O

SDIO Command line

VIO_SD

SD_CLK

SDIO Clock input

VIO_SD

SD_D0

I/O

SDIO Data line bit [0]

VIO_SD

SD_D1

I/O

SDIO Data line bit [1]

VIO_SD

Leave unconnected (internally connected to the USB interface, debugging

only)

Leave unconnected (internally connected to the USB interface, debugging

only)

WL_EN

Power up or power down the Wi-Fi section of the chipset (like a reset)

VIO

BT_EN

Power up or power down the Bluetooth section of the chipset (like a reset)

VIO

LPO_IN

Clock input for external sleep clock source (32.768 kHz)

GND

Ground

15 Ground/Thermal exposed pins, connect to the ground

Table 21: JODY-W1 series pin description

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4 Electrical specification

Stressing the device above one or more of the ratings listed in the Absolute Maximum Rating

section may cause permanent damage. These are stress ratings only. Operating the module at

these or at any conditions other than those specified in the Operating conditions section of this

document should be avoided. Exposure to absolute maximum rating conditions for extended

periods may affect device reliability.

Operating condition ranges define those limits within which the functionality of the device is guaranteed.

Where application information is given, it is advisory only and does not form part of the specification.

4.1 Absolute maximum ratings

Symbol

Description

Min.

Max.

Units

VBAT

Power supply voltage

-0.5

6.0

VIO

I/O supply voltage 1.8V/3.3V

-0.5

3.9

VIO_SD

SDIO supply voltage 1.8V/3.3V

-0.5

3.9

TSTORAGE

Storage temperature

-40

+85

ºC

Table 22: Absolute maximum ratings

The product is not protected against overvoltage or reversed voltages. If necessary, voltage

spikes exceeding the power supply voltage specification, given in table above, must be limited

to values within the specified boundaries by using appropriate protection devices.

4.2 Operating conditions

Symbol

Parameter

Min.

Typ

Max.

Units

VBAT

Power supply voltage

3.2

4.8

VIO

I/O supply voltage 1.8V/3.3V

1.62

3.63

VIO_SD

SDIO supply voltage 1.8V/3.3V

1.62

3.63

Ambient operating temperature

-40

+85

ºC

Ripple Noise

Peak-to-peak voltage ripple on VBAT and VIO supply

lines.

Table 23: Operating conditions

For temperature above 55 °C, the radio transceiver autonomously monitors its junction temperature and

employs transmit duty cycle throttling to regulate power dissipation and thereby ensures that the junction

temperature is safely below 115 °C. Transmit duty cycle throttling can lower throughput to up to 25% of

maximum throughput at nominal temperature.

4.3 Digital pad ratings

The following ratings are only for the SDIO interface I/O Pins and PCIe Out-of-Band signals (PCIE_PERST_L,

PCIE_PME_L and PCIE_CLKREQ_L).

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Symbol

Parameter

VIO_SD

Min.

Max.

Units

VIH

Input high voltage

1.8 V

1.27

3.3 V

0.625*VIO_SD

VIL

Input low voltage

1.8 V

0.58

3.3 V

0.25*VIO_SD

VOH

Output high voltage @ 2mA

1.8 V

1.4

3.3 V

0.75*VIO_SD

VOH

Output low voltage @ 2mA

1.8 V

0.45

3.3 V

0.125*VIO_SD

Table 24: DC characteristics SDIO digital I/O pins

The following ratings are for all other digital I/O pins including GPIOs.

Symbol

Parameter

VIO

Min.

Max.

Units

VIH

Input high voltage

1.8 V

0.65*VIO

3.3 V

2.0

VIL

Input low voltage

1.8 V

0.35*VIO

3.3 V

0.8

VOH

Output high voltage @ 2mA

1.8 V

VIO-0.45

3.3 V

VIO-0.4

VOH

Output low voltage @ 2mA

1.8 V

0.45

3.3 V

0.4

Table 25: DC characteristics digital I/O pins

4.4 Wi-Fi power consumption

Operation mode:

2.4 GHz and 5 GHz Wi-Fi, BT powered down

Typical

VBAT (3.3 V)

current, mA

Typical

VBAT (3.3 V)

idle current, mA

Typical

VIO (1.8 V)

idle current, µA

TX modes

CCK 11 Mbps, BW20, Ch7, Core2, 18dBm

360

110

MSC7, HT20 , Ch7, Core2, 14dBm

270

110

BPSK, 6 Mbps, HT20, Ch100, Core1, 17dBm

520

135

BPSK, 6 Mbps, HT20, Ch100, Core2, 17dBm

450

135

MCS7, HT20, SGI, CH100, Core1, 14dBm

440

135

MCS7, HT20, SGI, CH100, Core2, 14dBm

420

135

MCS7, HT40, SGI, Ch100, Core1, 14dBm

460

165

MCS7, HT40, SGI, Ch100, Core2, 14dBm

430

165

MCS9, VHT40, SGI, Ch100, Core1, 12dBm

430

165

MCS9, VHT40, SGI, Ch100, Core2, 12dBm

420

165

MCS9, VHT80, SGI, Ch100, Core1, 12dBm

470

240

MCS9, VHT80, SGI, Ch100, Core2, 12dBm

470

240

MCS9, VHT40, SGI, Ch100, 2 streams, 12dBm

760

165

MCS9, VHT80, SGI, Ch100, 2 streams, 12dBm

820

240

RX modes

MCS7, HT40, Ch100, Core2

190

165

MCS7, HT20, Ch7, Core2

120

110

1 Mbps, BW20, Ch7, Core2

110

6 Mbps, BW20, Ch100, Core2

140

135

MCS7, HT20, Ch100, Core2

140

135

MCS7, HT20, Ch100, Core1

140

135

MCS0, HT80, Ch100, Core1

245

240

Table 26: Current consumption for different Wi-Fi TX- and RX-modes at 25 °C

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Operation mode:

Power save modes

Typical

VBAT (3.3 V) current,

µA

Typical

VIO (1.8 V) current,

µA

Sleep (Idle, not associated), FW loaded

5.3

180

wlan power save, dtim 1

2600

220

wlan power save, dtim 2

1300

220

wlan power save, dtim 3

900

220

Table 27: Current consumption for Wi-Fi power-save modes at 25 °C

4.5 Bluetooth power consumption

Operation mode:

Bluetooth mode with Wi-Fi powered down

Typical

VBAT (3.3 V) current,

µA

Typical

VIO (1.8 V) current,

µA

Typical

VIO (3.3 V) current,

µA

Sleep

5.3

130

170

Standard 1.28s inquiry scan

150

185

DM5/DH5

56000

BLE scan

160

150

185

BLE advertising, unconnectable 1 sec

150

185

Table 28: Current consumption for Bluetooth operation at 25 °C

4.6 Radio specifications

4.6.1 Wi-Fi

The JODY-W1 series modules support dual-band Wi-Fi with 802.11a/b/g/n/ac operation in the 2.4 GHz and

5 GHz radio bands. The values in the table are design goals for the chipset and can be used for comparing with

the JODY-W1 prototype values.

Parameter

Operation Mode

Specification

RF Frequency range

802.11b/g/n

2.400 – 2.500 GHz

802.11a/n/ac

4.900 – 5.845 GHz

Modulation

802.11b

CCK and DSSS

802.11a/g/n/ac

OFDM

Supported data rates

802.11b

1, 2, 5.5, 11 Mbps

802.11a/g

6, 9, 12, 18, 24, 36, 48, 54 Mbps

802.11n SISO

MCS0 - MCS7 (150 Mbps)

802.11n MIMO

MCS8 – MCS15 (300 Mbps)

802.11ac SISO

MCS0 – MCS9 (433 Mbps)

802.11ac MIMO

MCS0 – MCS9 (867 Mbps)

Supported channel

bandwidth

2.4 GHz band

5 GHz band

20 MHz

20, 40, 80 MHz

Supported guard interval (GI)

802.11n

400, 800 ns

802.11ac

Short guard interval supported

Parameter

Operation Mode

802.11

EVM limit

Specification (typ. output

power tolerance ± 2 dB)

Maximum transmit power

2.4 GHz

DSSS/CCK

-9 dB

18 dBm

OFDM, BPSK

-8 dB

15 dBm

OFDM, QPSK

-13 dB

15 dBm

OFDM, 16-QAM

-19 dB

15 dBm

OFDM, 64-QAM, 3/4

-25 dB

13 dBm

OFDM, 64-QAM, 5/6

-28 dB

13 dBm

5 GHz

OFDM, BPSK

-8 dB

15 dBm

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OFDM, QPSK

-13 dB

15 dBm

OFDM, 16-QAM

-19 dB

15 dBm

OFDM, 64-QAM, 3/4

-25 dB

13 dBm

OFDM, 64-QAM, 5/6

-28 dB

13 dBm

OFDM, 256-QAM, 3/4

-30 dB

8 dBm

OFDM, 256-QAM, 5/6

-32 dB

8 dBm

Parameter

Operation Mode

Specification

Receiver sensitivity

2.4 GHz

802.11b

1 Mbps

-98 dBm ± 1 dB

11 Mbps

-90 dBm ± 1 dB

802.11g SISO

6 Mbps

-95 dBm ± 1 dB

54 Mbps

-78 dBm ± 1 dB

802.11n SISO

20 MHz

MCS0

-95 dBm ± 1 dB

MCS7

-75 dBm ± 1 dB

802.11n MIMO

20 MHz

MCS0

-96 dBm ± 1 dB

MCS7

-79 dBm ± 1 dB

5 GHz

802.11n SISO

40 MHz

MCS0

-89 dBm ± 1 dB

MCS7

-70 dBm ± 1 dB

802.11n MIMO

40 MHz

MCS8

-90 dBm ± 1 dB / core

MCS15

-70 dBm ± 1 dB / core

802.11ac SISO

20 MHz

MCS0

-92 dBm ± 1 dB

MCS8

-68 dBm ± 1 dB

802.11ac MIMO

20 MHz

MCS0

-92 dBm ± 1 dB / core

MCS8

-68 dBm ± 1 dB / core

802.11ac SISO

40 MHz

MCS0

-89 dBm ± 1 dB

MCS9

-64 dBm ± 1 dB

802.11ac MIMO

40 MHz

MCS0

-89 dBm ± 1 dB / core

MCS9

-64 dBm ± 1 dB / core

802.11ac SISO

80 MHz

MCS0

-86 dBm ± 1 dB

MCS9

-60 dBm ± 1 dB

802.11ac MIMO

80 MHz

MCS0

-86 dBm ± 1 dB / core

MCS9

-60 dBm ± 1 dB / core

Table 29: Wi-Fi Radio parameters

4.6.2 Bluetooth

Parameter

Specifications

RF Frequency Range

2.402 – 2.480 GHz

Supported Modes

Bluetooth v4.2+EDR

Number of channels

Modulation

1 Mbps: GFSK (BDR)

2 Mbps: π/4 DQPSK (EDR)

3 Mbps: 8DQPSK (EDR)

Transmit Power

+9 dBm ± 2 dB

Receiver Sensitivity

BDR: -93 dBm ± 1.5 dB

EDR: -89 dBm ± 1.5 dB

BLE: -95 dBm ± 1.5 dB

Table 30: Bluetooth radio parameters

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5 Host drivers and firmware

5.1 General principle

The JODY-W1 series module does not contain any persistent software. A firmware binary will be downloaded by

the host operating system driver on system start-up.

5.2 Supported operating systems

5.2.1 Linux

Linux device drivers are available free of charge from the chipset manufacturer. A Software License Agreement

(SLA) must be signed with the chipset manufacturer to obtain the driver package. This package includes:

 Dedicated Kernel driver, to bind the Wi-Fi device to the kernel. The driver sources will be provided.

 A dedicated Wi-Fi firmware image, which will be uploaded during initialization of the Wi-Fi device.

 A dedicated Bluetooth firmware image, which will be uploaded during initialization of the Bluetooth

device.

 Laboratory and manufacturing tools.

For a detailed description of the driver packages, refer to JODY-W1 series System Integration Manual [2].

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6 Mechanical specifications

Figure 19: JODY-W1 series dimensions (bottom view)

Parameter

Description

Typical

Tolerance

Module Length [mm]

19.8

(779.5 mil)

+0.35/-0.1

(+13.8/-3.9 mil)

Module Width [mm]

13.8

(543.3 mil)

+0.1/-0.1

(+3.9/-3.9 mil)

Module Thickness [mm]

2.5

(98.4 mil)

+0.2/-0.2

(+7.9/-7.9 mil)

ccc

Seating Plane Coplanarity [mm]

<0.1

(3.94 mil)

PCB Edge to Pin Edge [mm]

0.3

(11.8 mil)

+0.20/-0.20

(+7.9/-7.9 mil)

Pin Width [mm]

0.7

(27.6 mil)

+0.05/-0.05

(+2.0/-2.0 mil)

Pin Length [mm]

0.95

(37.4 mil)

+0.05/-0.05

(+2.0/-2.0 mil)

Pin to Pin Pitch [mm]

1.0

(39.4 mil)

+0.02/-0.02

(+0.8/-0.8 mil)

Horizontal Corner Pin to Pin Pitch [mm]

1.125

(44.3 mil)

+0.02/-0.02

(+0.8/-0.8 mil)

Lateral Corner Pin to Pin Pitch [mm]

1.125

(44.3 mil)

+0.02/-0.02

(+0.8/-0.8 mil)

Horizontal Thermal Pads Pitch [mm]

3.2

(126.0 mil)

+0.02/-0.02

(+0.8/-0.8 mil)

Thermal Pad Height [mm]

2.2

(86 6 mil)

+0.1/-0.1

(+3.9/-3.9 mil)

Thermal Pad Length [mm]

2.7

(106.3 mil)

+0.1/-0.1

(+3.9/-3.9 mil)

Pin 1 Diameter [mm]

0.95

(37.4 mil)

+0.05/-0.05

(+2.0/-2.0 mil)

Horizontal Pin to Thermal Pad Pitch [mm]

3.425

(134.8 mil)

+0.02/-0.02

(+0.8/-0.8 mil)

Lateral Pin to Thermal Pad Distance [mm]

2.725

(107.3 mil)

+0.02/-0.02

(+0.8/-0.8 mil)

Lateral Thermal Pads Pitch [mm]

2.7

(106.3 mil)

+0.02/-0.02

(+0.8/-0.8 mil)

Reserved area for future module variants

1.55

(61.0 mil)

+0.05/-0.05

(+2.0/-2.0 mil)

Seating

ccc

Plane

Pin1

Keep this area free of copper*

Future module variants can have more pins in this

area. To ensure compatibility this area should be

kept free of copper.

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7 Approvals

The JODY-W1 series modules comply with the regulatory demands of Federal Communications Commission

(FCC), Industry Canada (IC) and the CE mark

See JODY-W1 series System Integration Manual [2] to obtain information and requirements

regarding regulatory compliance of end-products using JODY-W1 series module.

Products marked with this lead-free symbol on the product label comply with the

"Directive 2002/95/EC of the European Parliament and the Council on the Restriction of

Use of certain Hazardous Substances in Electrical and Electronic Equipment" (RoHS).

JODY-W1 series Wi-Fi/Bluetooth multi-radio modules are RoHS compliant. No natural

rubbers, hygroscopic materials, or materials containing asbestos are employed.

All certifications and approvals mentioned below have not been completed yet and are in the final stage

currently.

7.1 European Union regulatory compliance

The JODY-W1 series module complies with the following regulatory standards:

Essential Requirements

Radio Equipment Directive 2014/53/EU

Standards

Safety & Health

(Article 3.1a)

IEC 60950-1:2005 (2nd Edition) + A1:2009

EN 60950-1:2006 + A11:2009 + A1:2010 + A12:2011

EN 62311:2008 (Wi-Fi)

EN 62479:2010 (Bluetooth)

EMC

(Article 3.1b)

EN 301 489-1 V2.1.1

EN 301 489-17 V3.1.1

Radio Spectrum Efficiency

(Article 3.2)

EN 300 328 V2.1.1

EN 301 893 V2.1.1

EN 300 440 V2.1.1

Essential Requirements

RoHS Directive 2011/65/EU

Standards

Prevention

(Article 4.1)

EN 50581:2012

7.2 FCC and IC compliance

This section contains the FCC and IC compliance information for the JODY-W1 series module.

Approvals are pending.

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7.2.1 FCC and ISED IDs

Model8

FCC ID

ISED ID

JODY-W163-04A,

JODY-W163-05A,

JODY-W164-04A,

JODY-W164-05A,

tbd

JODY-W164-03A

XPYJODYW164

8595A-JODYW164

JODY-W164-07A

XPYJODYW164-07A

8595A-JODYW16407A

JODY-W167-00A,

JODY-W167-03A,

JODY-W167-00B

XPYJODYW167

8595A-JODYW167

Table 31: FCC and IC IDs for different models of JODY-W1 series modules

7.2.2 FCC compliance statement

The JODY-W1 series modules have modular approval, and comply with Part 15 of the FCC Rules. Operation is

subject to the following two conditions:

1. This device may not cause harmful interference, and

2. This device must accept any interference received, including interference that may cause undesired

operation

Any changes or modifications NOT explicitly APPROVED by u-blox could cause the JODY-W1 series

module to cease to comply with FCC rules part 15 thus void the user's authority to operate the

equipment.

The internal / external antenna(s) used for this module must provide a separation distance of at least 20 cm from

all persons and must not be co-located or operating in conjunction with any other antenna or transmitter.

In accordance with 47 CFR § 15.19, the end product into which this module is integrated shall bear the

following statement in a conspicuous location on the device:

“This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions:

1. This device may not cause harmful interference, and

2. This device must accept any interference received, including interference that may cause undesired

operation.”

When the end-product is so small or for such use that it is not practical to place the above statement on it, the

information shall be placed in a prominent location in the instruction manual or pamphlet supplied to the user or

on the container in which the device is marketed. However, the FCC ID label must be displayed on the device.

If the end-product will be installed in locations where the end-user is not able to see the FCC ID and/or this

statement, the FCC ID and the statement shall also be included in the end-product manual.

The outside of final products containing the JODY-W1 module must display in a user accessible area a

label referring to the enclosed module

. This exterior label can use wording such as the following:

“Contains Transmitter Module FCC ID: XPYJODYW164” or “Contains FCC ID: XPYJODYW164”.

7.2.3 ISED compliance statement

The JODY-W1 series module complies with ISED (Innovation, Science and Economic Development Canada)

license-exempt RSSs. Operation is subject to the following two conditions:

The model name is identical to the ordering code (cf. Table 39)

The FCC and IC IDs for the JODY-W1 series module variants are shown in . Select the applicable ID.

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(1) This device may not cause interference, and

(2) This device must accept any interference, including interference that may cause undesired operation of the

device.

Any notification to the end user of installation or removal instructions about the integrated radio module

is NOT allowed. Unauthorized modification could void authority to use this equipment.

This equipment complies with ISED RSS-102 radiation exposure limits set forth for an uncontrolled environment.

This equipment should be installed and operated with minimum distance 20 cm between the radiator and your

body.

This radio transmitter IC: 8595A-JODYW164 / IC: 8595A-JODYW16407A / IC: 8595A-JODYW167 has been

approved by ISED to operate with the antenna types listed below with the maximum permissible gain indicated.

Antenna types not included in this list, having a gain greater than the maximum gain indicated for that type, are

strictly prohibited for use with this device.

Operation in the band 5150–5250 MHz is only for indoor use to reduce the potential for harmful

interference to co-channel mobile satellite systems;

Operation in the 5600-5650 MHz band is not allowed in Canada. High-power radars are allocated as

primary users (i.e. priority users) of the bands 5250-5350 MHz and 5650-5850 MHz and that these radars

could cause interference and/or damage to LE-LAN devices.

The ISED certification label of a module shall be clearly visible at all times when installed in the host device;

otherwise, the host device must be labeled to display the ISED certification number for the module, preceded by

the words “Contains transmitter module”, or the word “Contains”, or similar wording expressing the same

meaning, as follows: “Contains transmitter module IC: 8595A-JODYW164”

Le présent appareil est conforme aux CNR d'ISED applicables aux appareils radio exempts de licence.

L'exploitation est autorisée aux deux conditions suivantes:

(1) l'appareil ne doit pas produire de brouillage, et

(2) l'utilisateur de l'appareil doit accepter tout brouillage radioélectrique subi, même si le brouillage est

susceptible d'en compromettre le fonctionnement.

Cet équipement est conforme aux limites d'exposition de rayonnement d'ISED RSS-102 déterminées pour un

environnement non contrôlé. Cet équipement devrait être installé et actionné avec la distance minimum 20 cm

entre le radiateur et votre corps.

Cet émetteur radio, IC: 8595A-JODYW164 / IC: 8595A-JODYW16407A / IC: 8595A-JODYW167 été approuvé

par ISED pour fonctionner avec les types d’antenne énumérés ci-dessous avec le gain maximum autorisé et

l’impédance nécessaire pour chaque type d’antenne indiqué. Les types d’antenne ne figurant pas dans cette liste

et ayant un gain supérieur au gain maximum indiqué pour ce type-là sont strictement interdits d’utilisation avec

cet appareil.

Le dispositif de fonctionnement dans la bande 5150-5250 MHz est réservé à une utilisation en intérieur

pour réduire le risque d'interférences nuisibles à la co-canal systèmes mobiles par satellite

Opération dans la bande 5600-5650 MHz n'est pas autorisée au Canada. Haute puissance radars sont

désignés comme utilisateurs principaux (c.-àutilisateurs prioritaires) des bandes 5250-5350 MHz et 5650-

5850 MHz et que ces radars pourraient causer des interférences et / ou des dommages à dispositifs LAN-

EL.

L’étiquette d’homologation d’ISED d’un module donné doit être posée sur l’appareil hôte à un endroit bien en

vue en tout temps. En l’absence d’étiquette, l’appareil hôte doit porter une étiquette sur laquelle figure le

numéro d’homologation du module d’ISED, précédé des mots « Contient un module d’émission », ou du mot «

Contient », ou d’une formulation similaire allant dans le même sens et qui va comme suit : « Contient le module

d’émission IC: 8595A-JODYW164 ».

Formerly known as IC (Industry Canada).

The FCC and IC IDs for the JODY-W1 series module variants are shown in . Select the applicable ID.

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This radio transmitter IC: 8595A-JODYW164 / IC: 8595A-JODYW16407A / IC: 8595A-JODYW167 has been

approved by ISED to operate with the antenna types listed below with the maximum permissible gain indicated.

Antenna types not included in this list, having a gain greater than the maximum gain indicated for that type, are

strictly prohibited for use with this device.

Le présent émetteur radio IC: 8595A-JODYW164 / IC: 8595A-JODYW16407A / IC: 8595A-JODYW167 a été

approuvé par ISED pour fonctionner avec les types d'antenne énumérés ci-dessous et ayant un gain admissible

maximal. Les types d'antenne non inclus dans cette liste, et dont le gain est supérieur au gain maximal indiqué,

sont strictement interdits pour l'exploitation de l'émetteur.

The internal / external antenna(s) used for this module must provide a separation distance of at least 20 cm from

all persons and must not be co-located or operating in conjunction with any other antenna or transmitter. See

section 7.3 for list of approved antennas.

The approval type for all the JODY-W1 series variants is a single modular approval. Due to ISED Modular

Approval Requirements (Source: RSP-100 Issue 10), any application which includes the module must be

approved by the module manufacturer (u-blox). The application manufacturer must provide design data

for the review procedure.

7.3 Certification in other countries

Regulatory approvals for using the JODY-W1 series module in Japan, Korea, and Taiwan are pending.

7.4 Approved antennas

Please refer to the JODY-W1 antenna reference design [3] for the essential specifications to be fulfilled in the

end-product design to make use of the module’s radio type approval. It provides PCB layout details and electrical

specifications.

The approved antennas that may be connected to the JODY-W1 series module are listed in this section.

7.4.1 Wi-Fi operation

For Wi-Fi operation in the 2.4 GHz band and Wi-Fi operation in the 5 GHz band, the JODY-W1 series module has

been tested and approved for use with the antennas listed in Table 34.

Manufacturer

Part Number

Antenna type

Peak gain [dBi]

Validated

Regulatory

Domain

2.4 GHz

band

5 GHz

band

Any

N/A

Dipole antenna

FCC/IC

Any

N/A

Dipole antenna

ETSI

Table 32: List of approved Wi-Fi antennas

Important: To be compliant to FCC §15.407(a) the EIRP is not allowed to exceed 125 mW

(21 dBm) at any elevation angle above 30 degrees as measured from the horizon when

operated as an outdoor access point in U-NII-1 band, 5.150-5.250 GHz.

7.4.2 Bluetooth operation

For Bluetooth operation, the JODY-W1 series module has been tested and approved for use with the antennas

listed in Table 33.

Manufacturer

Part Number

Antenna type

Peak gain [dBi]

Validated

Regulatory

Domain

2.4 GHz

band

5 GHz

band

Any

N/A

Dipole antenna

FCC/IC

Any

N/A

Dipole antenna

ETSI

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Table 33: List of approved Bluetooth antennas

7.5 Bluetooth qualification

The JODY-W1 series module is Bluetooth qualified as “Controller Subsystem”.

This means that you do not need to do any further qualification if the module is combined with a host stack that

is Bluetooth qualified as "Host Subsystem".

7.5.1 Bluetooth host stack

Several Bluetooth host stacks are available in the market. These host stacks are suited for different tasks and

environments. These host stacks could differ based on their system requirements, supported Bluetooth profiles,

cost, Bluetooth qualification, support and so on.

Bluetooth SIG listing is pending.

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8 Product handling

8.1 Packaging

The JODY-W1 series modules are delivered as hermetically sealed tape and reels, to enable efficient production,

production lot set-up and tear-down. For more information about packaging, see the u-blox Package

Information Guide [1].

8.1.1 Reels

The JODY-W1 series modules are deliverable in quantities of 500 pieces on a reel. The JODY-W1 series modules

are shipped on reel Type A as described in the u-blox Package Information Guide [1].

8.1.2 Tapes

The dimensions of the tapes are specified in Figure 20.

Figure 20: JODY-W1 Tape dimensions

8.2 Shipment, storage and handling

For more information regarding shipment, storage and handling see the u-blox Package Information Guide [1].

8.2.1 Moisture sensitivity levels

The JODY-W1 series automotive-grade modules are rated at moisture sensitivity level 3. See moisture sensitive

warning label on each shipping bag for detailed information. After opening the dry pack, modules must be

mounted within 168 hours in factory conditions of maximum 30 °C/60%RH or must be stored at less than

10%RH. Modules require baking if the humidity indicator card shows more than 10% when read at 23±5°C or

if the conditions mentioned above are not met. Please refer to J-STD-033B standard for bake procedure.

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8.2.2 Mounting process and soldering recommendations

The JODY-W1 series module is a surface mount module supplied on an 8-layer FR4-type PCB with gold plated

connection pins and produced in a lead-free process with a lead-free soldering paste. The thickness of solder

resist on the host PCB top side and the JODY-W1 bottom side must be considered for the soldering process.

This module is compatible with industrial reflow profile for RoHS/Pb-free solders, Sn96.5/Ag3.0/Cu0.5 solder is a

right choice. Use of "No Clean" soldering paste is strongly recommended, cleaning the populated modules is

strongly discouraged - residuals under the module cannot be easily removed with any cleaning process. Cleaning

with water can lead to capillary effects where water is absorbed into the gap between the host board and

module. The combination of soldering flux residuals and encapsulated water could lead to short circuits between

neighboring pins.

Only a single reflow soldering process is permitted for host boards with the JODY-W1 series modules.

The reflow profile used is dependent on the thermal mass of the entire populated PCB, heat transfer efficiency

of the oven and particular type of solder paste used. Since the profile used is process and layout dependent, the

optimum profile should be studied case by case. Recommendations below should be taken as a starting point

guide. In case of basic information necessity, refer to J-STD-020C standard.

Profile feature

Sn-Pb eutectic

(Sn63/Pb37)

RoHS/Pb-free

(Sn96.5/Ag3.0/Cu0.5)

Ramp up rate (TSMAX to TP)

3 °C/sec max

Minimum soak temperature (TSMIN)

100 °C

150 °C

Maximum soak temperature (TSMAX)

150 °C

200 °C

Soak time (ts)

60 - 120 sec

60 - 180 sec

Liquidus temperature (TL)

183 °C

217 °C

Time above TL (tL)

60 - 150 sec

Peak temperature (TP)

215 – 225 °C

235 – 245 °C

Time within +0 / -5°C of actual TP (tp)

10 - 30 sec

20 - 40 sec

Ramp down rate

6 °C/sec max

Time from 25°C to TP

6 min max

8 min max

Table 34: Recommended reflow profile

The lowest value of TP and slower ramp down rate (2 – 3 °C/sec) is preferred.

Figure 21: Reflow profile

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8.2.3 ESD handling precautions

JODY-W1 series modules are Electrostatic Sensitive Devices (ESD). Observe precautions for

handling! Failure to observe these precautions can result in severe damage to the Wi-Fi receiver!

Wi-Fi transceivers are Electrostatic Sensitive Devices (ESD) and require special precautions when handling.

Particular care must be exercised when handling patch antennas, due to the risk of electrostatic charges. In

addition to standard ESD safety practices, the following measures should be taken into account whenever

handling the receiver:

 Unless there is a galvanic coupling between the

local GND (i.e. the work table) and the PCB GND,

then the first point of contact when handling the

PCB must always be between the local GND and

PCB GND.

 Before mounting an antenna patch, connect

ground of the device

 When handling the RF pin, do not come into

contact with any charged capacitors and be

careful when contacting materials that can

develop charges (e.g. patch antenna ~10 pF, coax

cable ~50-80 pF/m, soldering iron, …)

 To prevent electrostatic discharge through the RF

input, do not touch any exposed antenna area. If

there is any risk that such exposed antenna area is

touched in non ESD protected work area,

implement proper ESD protection measures in the

design.

 When soldering RF connectors and patch

antennas to the receiver’s RF pin, make sure to

use an ESD safe soldering iron (tip).

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9 Labeling and ordering information

9.1 Product labeling

The labels of JODY-W1 series include important product information as described in this section. The data matrix

code for automotive and professional grade variants of JODY-W1 series includes a serial number.

Figure 22 illustrates the sample label of the JODY-W1 series and includes: the u-blox logo, product name

(model), type number, FCC and IC certification number and date of unit production encoded YY/WW

(year/week).

Figure 22: JODY-W1 series sample label

A detailed description of the label components are listed in Table 35.

Reference

Description

Text in bold font: MODEL: type number without the product version

Product version (“xxB-yy” for professional and “xxA-yy” for automotive grade)

Date of production encoded YY/WW (year/week)

FCC/ISED ID which the module has been listed with

Data Matrix with unique serial number of 19 alphanumeric symbols.

The 3 first symbols represent the unique module type no, the next 12 symbols represent the unique hexadecimal

Bluetooth MAC address of the module in the format AABBCCDDEEFF, and the last 4 symbols represent the hardware

and firmware version encoded HHFF.

u-blox logo, the red dot in the logo is also marking pin no 1

Table 35: JODY-W1 series label description

The model name, which is identical to the ordering code, used for product type approval is shown on the first

line of the label. Table 36 provides the mapping of ordering code, label contents and FCC/ISED IDs. The marking

“yy” in Reference 2 on the label is the minor product version and not relevant for certification.

Ordering code

Label marking

FCC ID

ISED ID

Ref. 1 (Model: …)

Ref. 2

JODY-W163-04A,

JODY-W163-05A,

JODY-W163

04A-yy

05A-yy

tbd

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Ordering code

Label marking

FCC ID

ISED ID

Ref. 1 (Model: …)

Ref. 2

JODY-W164-04A,

JODY-W164-05A,

JODY-W164

04A-yy

05A-yy

JODY-W164-03A

JODY-W164

03A-yy

XPYJODYW164

8595A-JODYW164

JODY-W164-07A

JODY-W164

07A-yy

XPYJODYW164-07A

8595A-JODYW16407A

JODY-W167-00A,

JODY-W167-03A,

JODY-W167-00B

JODY-W167

00A-yy

03A-yy

00B-yy

XPYJODYW167

8595A-JODYW167

Table 36: Mapping of ordering code, label marking and FCC/ISED IDs.

9.2 Table Explanation of codes

Two different product code formats are used. The Product Name is used in documentation such as this data

sheet and identifies all u-blox products, independent of packaging and quality grade. The Ordering Code

includes options and quality, while the Type Number includes the hardware and firmware versions. Table 37

explains these three different formats:

Format

Structure

Product Name

PPPP-TGVV

Ordering Code

PPPP-TGVV-TTQ

Type Number

PPPP-TGVV-TTQ-XX

Table 37: Product code formats

Table 38 explains the parts of the product code.

Code

Meaning

Example

PPPP

Form factor

JODY

Platform

T – Dominant technology, For example, W: Wi-Fi, B: Bluetooth

G - Generation

Variant based on the same platform; range [00…99]

Major Product Version

Quality grade

A: Automotive

B: Professional

C: Standard

Minor product version (not relevant for certification)

Table 38: Part identification code

9.3 Ordering codes

Ordering Code

Product name

Product

JODY-W163-04A

JODY-W163-A

Automotive grade module based on CYW89359 transceiver, 2-antenna version, RSDB

operation on a single antenna. No MIMO support. SDIO host interface.

JODY-W163-05A

JODY-W163-A

Automotive grade module based on CYW88359 transceiver, 2-antenna version, RSDB

operation on a single antenna. No MIMO support. SDIO host interface.

JODY-W164-03A

JODY-W164-A

Automotive grade module based on CYW89359 transceiver, 2-antenna version, RSDB

operation on a single antenna. Support for 5 GHz MIMO. PCIe host interface.

JODY-W164-04A

JODY-W164-A

Automotive grade module based on CYW89359 transceiver, 2-antenna version, RSDB

operation on a single antenna. No MIMO support. PCIe host interface.

JODY-W164-05A

JODY-W164-A

Automotive grade module based on CYW88359 transceiver, 2-antenna version, RSDB

operation on a single antenna. No MIMO support. PCIe host interface.

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Ordering Code

Product name

Product

JODY-W164-07A

JODY-W164-A

Automotive grade module based on CYW88359 transceiver, 2-antenna version, RSDB

operation on a single antenna. No MIMO support. LTE filter for 2.4 GHz Wi-Fi. SDIO

host interface.

JODY-W167-00A

JODY-W167-A

Automotive grade module based on CYW88359 transceiver, 3-antenna version, RSDB

operation requires two antennas. PCIe host interface.

JODY-W167-03A

JODY-W167-A

Automotive grade module based on CYW89359 transceiver, 3-antenna version, RSDB

operation requires two antennas. PCIe host interface.

JODY-W167-00B

JODY-W167

Professional grade module based on CYW88359 transceiver, 3-antenna version, RSDB

operation requires two antennas. PCIe host interface.

Table 39: Product ordering codes

Product changes affecting form, fit or function are documented by u-blox. For a list of Product Change

Notifications (PCNs) see our website.

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Appendix

A Glossary

Name

Definition

Alternating Current

Bluetooth

CMD

Command

Direct Current

DDR

Double Data Rate

ESD

Electrostatic Sensitive Devices

FCC

Federal Communications Commission

FIFO

First In, First Out

Guard interval

GND

Ground

GPIO

General-purpose input/output

High Definition

HCI

Host Controller Interface

ISED

Innovation, Science and Economic Development Canada

ISM

Industrial, scientific and medical

Low Energy

LTE

Long Term Evolution

LULA

Limited Use License Agreement

MAC

Medium Access Control

MIMO

Multiple Input Multiple Output

MWS

Mobile Wireless Standards

MSL

Moisture sensitivity level

NFC

Near-Field Communication

OEM

Original equipment manufacturer

P2P

Peer-to-peer

P2P (GC)

P2P Client

P2P (GO)

P2P Group Owner

PCB

Printed Circuit Board

PCI

Peripheral Component Interconnect

PCIe

PCI Express

PCN

Product Change Notification

PCM

Pulse-code modulation

POR

Power-on reset

RED

Radio Equipment Directive

Radio Frequency

RSDB

Real Simultaneous Dual Band

RSS

Radio Standards Specification

Relative humidity

RoHS

Restriction of Hazardous Substances

SAR

Specific Absorption Rate

SCO

Synchronous Connection-Oriented

JODY-W1 series - Data Sheet

UBX-16013635 - R10_draft Confidential Appendix

Page 47 of 50

Name

Definition

SDIO

Secure Digital Input Output

SDR

Single Data Rate

SISO

Single-input single-output

SMD

Surface-mount Device

STA

Station

TBD

To be defined

USB

Universal Serial Bus

UART

Universal Asynchronous Receiver/Transmitter

VSDB

Virtual Simultaneous Dual Band

WAPI

WLAN Authentication and Privacy Infrastructure

WLAN

Wireless Local Area Network

Table 40: Explanation of abbreviations and terms used

JODY-W1 series - Data Sheet

UBX-16013635 - R10_draft Confidential Related documents

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