# WIFI+BT RF MODULE , RADIO CERTIFIED

![Product image](https://novapart.co/image/farnell:3228623/)

**URL**: https://novapart.co/products/LBEE5HY1MW-230/wifibt-rf-module-radio-certified
**SKU**: LBEE5HY1MW-230
**Manufacturer**: MURATA
**Category**: Wireless Modules & Adaptors || Communications & Networking Modules || WLAN Modules & USB Adaptors
**Price**: €9.4100
**Stock**: 200+
**Lead Time**: 165 days (indicative)

## Specifications

| Parameter | Value |
|---|---|
| Svhc | No SVHC (04-Feb-2026) |
| Frequency Rf | 5GHz |
| Product Range | - |
| Module Interface | I2S, SDIO, UART |
| Module Applications | Wireless Connectivity |

## Datasheet

📄 [Download PDF](https://novapart.co/datasheet/farnell:3228623/)

Preliminary Specification Number : SP-HY1MW-N 

## **W-LAN+Bluetooth Combo Module Data Sheet** 

## **Cypress Chipset for 802.11a/b/g/n/ac + Bluetooth 5.0** 

## **- Tentative P/N : LBEE5HY1MW TEMP** 

Preliminary < Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 

|RevisedNo.|RevisedDate|Note|
|---|---|---|
|-|2016.10.03|Initial Release|
|A|2017.04.26|Changed BT version<br>1.SCOPE<br>2.KEY FEATURE<br>10.7.DC/RF Characteristics for Bluetooth<br>10.8. DC/RF Characteristics for Bluetooth（LE）|
|B|2017.05.19|2. Key Feature : Changed IC vendor name<br>4. Operating condition : corrected<br>8. Digital I/O Requirements : Added<br>10.Electrical characteristics : Corrected<br>12. Reference Circuit: Added|
|C|2017.08.02|Modify Bluetooth Specification Version|
|D|2017.08.04|10. FinalizeWLAN TBDSpecvalue|
|E|2017.08.17|12.CorrectedReference circuit|
|F|2017.09.04|10.2.1. Low Rate Condition for IEEE802.11g - 2.4GHz<br>CorrectedPower Levels|
|G|2018.01.10|4. Operating condition : Changed VBAT min voltage<br>10.Electricalcharacteristic:Changed output powersetting|
|H|2018.04.17|10.Electricalcharacteristic:Updated|
|I|2018.04.23|10.Electrical characteristic : Corrected|
|J|2018.06.13|3. Certification information : Added<br>APPENDIX : Added|
|K|2018.11.29|ModifyBluetoothSpecification Version : 4.2to 5.0|
|L|2018.12.28|Revised<br>12.<br>REFERENCE<br>CIRCUIT/14.5.<br>Soldering<br>conditions/14.6.Cleaning|
|M|2019.02.28|Corrected 3.2 Europe certification information|
|N|2019.05.16|3.2 Bluetooth® Qualification: Added<br>16. PRECONDITION TO USE OUR PRODUCTS: Updated<br>Appendix : Added User manual forJapancertification|



Preliminary < Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 

Preliminary Specification Number: SP-HY1MW-N 2 / 61 

## **TABLE OF CONTENTS** 

|1.<br>SCOPE ..................................................................................................................................................... 4|
|---|
|2.<br>KEY FEATURE ...................................................................................................................................... 4|
|2.1.<br>Block Diagram .......................................................................................................................... 4|
|2.2.<br>Ordering Information ............................................................................................................... 4|
|2.3.<br>RoHS Compliance ..................................................................................................................... 4|
|3.<br>Certification Information ....................................................................................................................... 5|
|3.1.<br>Radio Certification ................................................................................................................... 5|
|USA/Canada ........................................................................................................................................ 5|
|Europe .................................................................................................................................................. 5|
|Japan .................................................................................................................................................... 5|
|3.2.<br>Bluetooth®Qualification .......................................................................................................... 5|
|4.<br>ABSOLUTE MAXIMUM RATINGS ...................................................................................................... 5|
|5.<br>OPERATING CONDITION ................................................................................................................... 5|
|6.<br>External LPO Signal Requirement ....................................................................................................... 5|
|7.<br>DIMENSIONS, MARKING AND TERMINAL CONFIGURATIONS ................................................. 6|
|7.1.<br>Dimensions ............................................................................................................................... 6|
|7.2.<br>Pin Layout ................................................................................................................................. 7|
|7.3.<br>Module PIN Descriptions ......................................................................................................... 8|
|8.<br>POWER ON SEQUENCE .................................................................................................................... 10|
|8.1.<br>Power On Sequence for WLAN ON and BT ON .................................................................. 10|
|8.2.<br>Power On Sequence for WLAN ON and BT Off ................................................................... 10|
|8.3.<br>Power On Sequence for WLAN OFF and BT ON..................................................................11|
|8.4.<br>Power On Sequence for WLAN OFF and BT OFF ................................................................11|
|9.<br>Digital I/O Requirements ..................................................................................................................... 12|
|10.<br>INTERFACE TIMING AND AC CHARACTERISTICS ................................................................. 13|
|10.1.<br>Bluetooth UART Timing .................................................................................................... 13|
|10.2.<br>Bluetooth PCM Interface Timing ...................................................................................... 13|
|10.2.1.<br>Short Frame Sync, Master Mode ............................................................................... 13|
|10.2.2.<br>Short Frame Sync, Slave Mode .................................................................................. 14|
|10.2.3.<br>Long Frame Sync, Master Mode ................................................................................ 14|
|10.2.4.<br>Long Frame Sync, Slave Mode ................................................................................... 15|
|10.2.5.<br>Short Frame Sync, Burst Mode .................................................................................. 16|
|10.2.6.<br>Long Frame Sync, Burst Mode ................................................................................... 17|
|10.3.<br>I2S Timing ........................................................................................................................... 18|
|10.3.1.<br>I2S Transmitter Timing ............................................................................................... 19|
|10.3.2.<br>I2S Receiver Timing ..................................................................................................... 19|
|10.5.<br>WLAN SDIO Timing .......................................................................................................... 20|
|10.5.1.<br>SDIO Default Mode Timing ........................................................................................ 20|
|10.5.2.<br>SDIO High-Speed Mode Timing ................................................................................. 21|
|10.5.3.<br>SDIO BUS Timing Specifications in SDR Modes ..................................................... 21|
|10.5.4.<br>SDIO Timing Specifications in DDR50 Mode............................................................ 24|
|11.<br>ELECTRICAL CHARACTERISTICS .............................................................................................. 26|
|11.1.<br>DC/RF Characteristics for IEEE802.11b - 2.4GHz .......................................................... 26|
|11.1.1.<br>High Rate Condition for IEEE802.11b – 2.4GHz ...................................................... 26|
|11.1.2.<br>Low Rate Condition for IEEE802.11b – 2.4GHz ....................................................... 27|
|11.2.<br>DC/RF Characteristics for IEEE802.11g - 2.4GHz .......................................................... 28|
|11.2.1.<br>High Rate Condition for IEEE802.11g – 2.4GHz ...................................................... 28|
|11.2.2.<br>Low Rate Condition for IEEE802.11g – 2.4GHz ....................................................... 29|
|11.3.<br>DC/RF Characteristics for IEEE802.11n - 2.4GHz .......................................................... 30|
|11.3.1.<br>High Rate Condition for IEEE802.11n – 2.4GHz ..................................................... 30|
|11.3.2.<br>Low Rate Condition for IEEE802.11n – 2.4GHz ....................................................... 31|
|11.4.<br>DC/RF Characteristics for IEEE802.11a - 5GHz ............................................................. 32|
|11.4.1.<br>High Rate Condition for IEEE802.11a – 5GHz ......................................................... 32|
|11.4.2.<br>Low Rate Condition for IEEE802.11a – 5GHz .......................................................... 33|



Preliminary 

< Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 

|Preliminary Specification Number: SP-HY1MW-N<br>INNOVATOR<br>IN ELECTRONICS|
|---|
|3 / 61|
|11.5.<br>DC/RF Characteristics for IEEE802.11n(HT 40MHz) - 5GHz ........................................ 34|
|11.5.1.<br>High Rate Condition for IEEE802.11n(HT 40MHz) – 5GHz ................................... 34|
|11.5.2.<br>Low Rate Condition for IEEE802.11n(HT 40MHz) – 5GHz ..................................... 35|
|11.6.<br>DC/RF Characteristics for IEEE802.11ac (VHT 80MHz)-5GHz ..................................... 36|
|11.6.1.<br>High Rate Condition for IEEE802.11ac(VHT 80MHz) – 5GHz ............................... 36|
|11.6.2.<br>Low Rate Condition for IEEE802.11ac(VHT 80MHz) – 5GHz................................. 37|
|11.7.<br>DC/RF Characteristics for Bluetooth ................................................................................ 38|
|11.8.<br>DC/RF Characteristics for Bluetooth（LE）.................................................................... 39|
|12.<br>LAND PATTERN (TOP VIEW) ........................................................................................................ 40|
|13.<br>REFERENCE CIRCUIT ................................................................................................................... 41|
|14.<br>TAPE AND REEL PACKING ........................................................................................................... 42|
|15.<br>NOTICE ............................................................................................................................................. 45|
|15.1.<br>Storage Conditions: ............................................................................................................ 45|
|15.2.<br>Handling Conditions: ......................................................................................................... 45|
|15.3.<br>Standard PCB Design (Land Pattern and Dimensions): ................................................. 45|
|15.4.<br>Notice for Chip Placer: ....................................................................................................... 45|
|15.5.<br>Soldering Conditions: ......................................................................................................... 46|
|15.6.<br>Cleaning: ............................................................................................................................. 46|
|15.7.<br>Operational Environment Conditions: .............................................................................. 46|
|15.8.<br>Input Power Capacity: ........................................................................................................ 47|
|16.<br>PRECONDITION TO USE OUR PRODUCTS ............................................................................... 48|



_**Please be aware that an important notice concerning availability, standard warranty and use in critical applications of Murata products and disclaimers thereto appears at the end of this specification sheet.**_ 

Preliminary < Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 

Preliminary Specification Number: SP-HY1MW-N 4 / 61 

## **1. SCOPE** 

This specification is applied to the IEEE802.11a/b/g/n/ac W-LAN + Bluetooth 5.0 combo module. 

## **2. KEY FEATURE** 

   - Cypress CYW43455 inside 

   - Compliant with IEEE802.11a/b/g/n/ac 

- Compliant with Bluetooth specification v5.0 - SAW filter inside 

- SDIO interface for W-LAN 

- Interface support for Bluetooth is Host Controller Interface (HCI) - Surface mount type 7.9 x 7.3 mm (Typical), H = 1.1 mm (Max) - Weight : 0.15g 

   - MSL : 3 

## **2.1. Block Diagram** 

**==> picture [451 x 270] intentionally omitted <==**

**----- Start of picture text -----**<br>
LC network<br>For DCDC<br>pL Sleep Clock<br>CYW43455<br>\/S —— ft<br>5G Tx(WLAN)<br>VBAT<br>5G Rx(WLAN)<br>e b t=<br>VIO<br>DIPLEX<br>=<br>— SDIO<br>SAW<br>2.4G Tx(WLAN/BT)  UART<br>Maching<br>PCM<br>2.4G Rx(WLAN/BT)  HE<br>ay to<br>I2S<br>Ho<br>{ol<br>Type1MW  Ref Clock:37.4MHz<br>**----- End of picture text -----**<br>


## **2.2. Ordering Information** 

|OrderingPartNumber|Description|
|---|---|
|LBEE5HY1MW-TEMP|Incase ofsample order|
|LBEE5HY1MW-TEMP-D|EVK|



## **2.3. RoHS Compliance** 

This module is compliant with the RoHS directive. 

Preliminary < Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 

Preliminary Specification Number: SP-HY1MW-N 5 / 61 

## **3. Certification Information** 

## **3.1. Radio Certification** 

## **USA/Canada** 

FCC ID : VPYLBEE5HY1MW IC : 772C-LBEE5HY1MW *Please follow user/installation manual of Appendix Country Code: US/0 

## **Europe** 

EN300328/301893 v2.1.1, EN300440 v2.2.0 conducted test report is prepared. Country Code: DE/0 

## **Japan** 

Japanese type certification is prepared. 001-P01220 Country Code: JP/0 *Please follow user manual of Appendix 

The each country code are defined by Murata Blob file. Please ask your contact person from Murata. 

## **3.2. Bluetooth[®] Qualification** 

QDID: 118271 

## **4. ABSOLUTE MAXIMUM RATINGS** 

|Parameter|Parameter|min.|max.|Unit|
|---|---|---|---|---|
|StorageTemperature||-40|85|deg.C|
|Supply Voltage|VBAT|0|5.0|V|
||VIO|0|3.9|V|



* Stresses in excess of the absolute ratings may cause permanent damage. Functional operation is not implied under these conditions. Exposure to absolute ratings for extended periods of time may adversely affect reliability. No damage assuming only one parameter is set at limit at a time with all other parameters are set within operating condition. 

## **5. OPERATING CONDITION** 

|Parameter|Parameter|min.|typ.|max.|unit|
|---|---|---|---|---|---|
|OperatingTemperature*1||-20|25|+75|deg.C|
|Supply Voltage|VBAT|3.2|-|4.2|V|
||VIO1.8V/3.3V|1.62|-|3.63|V|



*1 Functionality is guaranteed but specifications require derating at extreme temperatures. 

## **6. External LPO Signal Requirement** 

|Parameter|External LPO Clock|Unit|
|---|---|---|
|Nominal inputfrequency|32.768|kHz|
|Frequency accuracy|+/-200|ppm|
|Duty cycle|30-70|%|
|Input signalamplitude|200-3300|mVp-p|
|Signaltype|Square-wave orsine-wave|-|
|Input impedance*a|> 100k<br>< 5|ohm<br>pF|
|Clockjitter(duringinitial start-up)|<10,000|ppm|



a)When power is applied or switch off. 

Preliminary 

< Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 

Preliminary Specification Number: SP-HY1MW-N 6 / 61 

e10 c4 e11 

## **7. DIMENSIONS, MARKING AND TERMINAL CONFIGURATIONS 7.1. Dimensions** 

**==> picture [506 x 537] intentionally omitted <==**

**----- Start of picture text -----**<br>
                <TOP VIEW>             <BOTTOM VIEW><br>L e6 a3 e7 a4 e8 e9<br>A  ,<br>(27) (38)<br>b3<br>c3 (26) Te (39)<br>e5<br>c2<br>@ B  — Moun =<br>SS1234567  — e4 - BEE (61) (66) :<br>(71) (72)<br>W<br>1MW<br>e3<br>D  (70) (69) (68)<br>_ = S00 8E<br>C<br>m2<br>c1 = Bua<br>(58) (53) m1<br>(13) (52)<br>I ® b2 o m<br>(12) (1)<br>Conformal shield<br>e2 e1 a2 a1 b1<br>      <SIDE VIEW><br>T<br>: l<br>Marking Meaning<br>A  Murata Logo<br>B  Inspection Number<br>C Module Type<br>D  Pin 1 Marking<br>(unit : mm)<br>Mark  Dimensions  Mark  Dimensions  Mark  Dimensions<br>ee  (<br>L  7.9 +/- 0.1  W  7.3 +/- 0.1  T  1.1 max.<br>eS a1  0.5 +/- 0.1  a2  0.25 a +/- 0.1  a3 1.0 +/- 0.1<br>a4  0.25 +/- 0.1  b1  0.3 +/- 0.1  b2  0.275 +/- 0.1<br>eS b3 0.3 +/- 0.1  c1  0.25 +/- 0.1  c2  1.0 +/- 0.1<br>c3 0.5 +/- 0.1  c4  0.5 +/- 0.1  e1  0.25 +/- 0.1<br>a e2  0.275 +/- 0.1  e3 0.25 +/- 0.1  e4  0.3 +/- 0.1<br>a e5 0.4 +/ Ca - 0.1  e6 0.7 +/- 0.1  e7  0.575 +/- 0.1<br>e8 0.25 +/- 0.1  e9 0.3 +/- 0.1  e10 0.55 +/- 0.1<br>e11  0.65 +/- 0.1  m1  0.5 +/- 0.1  m2  0.5 +/- 0.1<br>**----- End of picture text -----**<br>


Preliminary < Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 

Preliminary Specification Number: SP-HY1MW-N 7 / 61 

## **7.2. Pin Layout** 

## **Top View** 

**==> picture [326 x 286] intentionally omitted <==**

**----- Start of picture text -----**<br>
(38) (27)<br>(39) =e PPP eee eee 0 0 fom (26<br>Zz |<br>|<br>= ial =<br>| (66) (61)<br>-<br>BE E |<br>| (72) (71) -<br>|| a Tll e ||<br>|| (68) (69) (70) (59) ||<br>||<br>=_Qui m<br>|| (53) (58) =<br>|| ||<br>(52) m EER E oe (13)<br>(1) (12)<br>**----- End of picture text -----**<br>


|Pin<br>No.<br>~~ee~~<br>~~a~~|Description<br>~~ee~~<br>~~ee~~|Pin<br>No.<br>~~ee~~<br>~~a~~<br>~~ee~~|Description<br>~~ee~~<br>~~ee~~<br>~~GG~~|Pin<br>No.<br>~~ee~~<br>~~ee~~<br>~~GG~~|Description<br>~~ee~~<br>~~ee~~<br>~~Qe~~|Pin<br>No.<br>~~ee~~<br>~~ee~~<br>~~OO~~|Description<br>~~ee~~|
|---|---|---|---|---|---|---|---|
|1<br>~~ee~~<br>~~a~~|GPIO_6<br>~~ee~~<br>~~ee~~|19<br>~~ee~~<br>~~a~~<br>~~ee~~|GND<br>~~ee~~<br>~~ee ~~<br>~~GG~~|37<br>~~ee~~<br> ~~ee~~<br>~~GG~~|I2S_CLK<br>~~ee~~<br>~~ee ~~<br>~~Qe~~|55<br>~~ee~~<br> ~~ee~~<br>~~OO~~|GND<br>~~ee~~|
|2<br>~~Pf~~|GPIO_0<br>~~ee~~<br>~~Pf~~|20<br>~~ee~~<br>~~Pf~~|SDIO_CLK<br>~~GG~~<br>~~Pf~~|38<br>~~GG ~~<br>~~Pf~~|I2S_WS<br> ~~Qe~~<br>~~Pf~~|56<br>~~OO~~<br>~~Pf~~|GND<br>~~Pf~~|
|3<br>~~a~~|GPIO_3<br>|21<br>|GND<br>|39<br>|GND<br>|57<br>|JTAG_SEL<br>|
|4<br>~~aPf~~|GPIO_5<br>~~Pf~~|22<br>~~Pf~~|VBAT_LDO<br>~~Pf~~|40<br>~~Pf~~|BT_DEV_WAKE<br>~~Pf~~|58<br>~~Pf~~|GND<br>~~Pf~~|
|5<br>~~a~~|GPIO_1<br>|23<br>|VBAT_SR<br>|41<br>|BT_HOST_WAKE<br>|59<br>|GND<br>|
|6<br>~~aPf~~|GPIO_4<br>~~Pf~~|24<br>~~Pf~~|SR_PVSS<br>~~Pf~~|42<br>~~Pf~~|I2S_DI<br>~~Pf~~|60<br>~~Pf~~|GND<br>~~Pf~~|
|7<br>~~a~~|GPIO_2<br>|25<br>|VIN_LDO<br>|43<br>|NC<br>|61<br>|GND<br>|
|8<br>~~aPf~~|BT_REG_ON<br>~~Pf~~|26<br>~~Pf~~|SR_PVSS<br>~~Pf~~|44<br>~~Pf~~|GND<br>~~Pf~~|62<br>~~Pf~~|BT_GPIO_4<br>~~Pf~~|
|9<br>~~a~~|WL_REG_ON<br>|27<br>|SR_PVSS<br>|45<br>|BT_UART_RXD<br>|63<br>|BT_GPIO_3<br>|
|10<br>~~aPf~~|GND<br>~~Pf~~|28<br>~~Pf~~|SR_VLX<br>~~Pf~~|46<br>~~Pf~~|BT_UART_TXD<br>~~Pf~~|64<br>~~Pf~~|BT_GPIO_2<br>~~Pf~~|
|11<br>~~a~~|VIO<br>|29<br>|GND<br>|47<br>|BT_UART_RTS_N<br>|65<br>|BT_GPIO_5<br>|
|12<br>~~Pf~~|GND<br>~~Pf~~|30<br>~~Pf~~|LPO_IN<br>~~Pf~~|48<br>~~Pf~~|BT_UART_CTS_N<br>~~Pf~~|66<br>~~Pf~~|GND<br>~~Pf~~|
|13<br>~~a~~|GND<br>~~ee~~|31<br>~~ee~~|GPIO_7<br>~~GG~~|49<br>~~GG~~|GND<br>~~QO~~|67<br>~~QO~~|GND|
|14<br>~~a~~|SDIO_DATA0<br>~~ee~~|32<br>~~ee~~|BT_PCM_IN<br>~~GG~~|50<br>~~GG~~|ANT<br>~~QO~~|68<br>~~QO~~|GND|
|15<br>~~Pf~~|SDIO_CMD<br>~~ee~~<br>~~Pf~~|33<br>~~ee~~<br>~~Pf~~|BT_PCM_SYNC<br>~~GG~~<br>~~Pf~~|51<br>~~GG ~~<br>~~Pf~~|GND<br> ~~QO~~<br>~~Pf~~|69<br>~~QO~~<br>~~Pf~~|GND<br>~~Pf~~|
|16<br>~~a~~|SDIO_DATA1<br>|34<br>|BT_PCM_OUT<br>|52<br>|GND<br>|70<br>|GND<br>|
|17<br>~~Pf~~|SDIO_DATA2<br>~~Pf~~|35<br>~~Pf~~|BT_PCM_CLK<br>~~Pf~~|53<br>~~Pf~~|GND<br>~~Pf~~|71<br>~~Pf~~|GND<br>~~Pf~~|
|18<br>~~a~~|SDIO_DATA3|36|I2S_DO|54|NC|72|GND|



Preliminary < Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 

Preliminary Specification Number: SP-HY1MW-N 8 / 61 

## **7.3. Module PIN Descriptions** 

|No.|Pin name|Type|System|Connection to<br>IC pin name|Description|
|---|---|---|---|---|---|
|1|GPIO_6|I/O|WL|GPIO_6|Programmable GPIO Pin|
|2|GPIO_0|I/O|WL|GPIO_0|Programmable GPIO Pin|
|3|GPIO_3|I/O|WL|GPIO_3|Programmable GPIO Pin|
|4|GPIO_5|I/O|WL|GPIO_5|Programmable GPIO Pin|
|5|GPIO_1|I/O|WL|GPIO_1|Programmable GPIO Pin|
|6|GPIO_4|I/O|WL|GPIO_4|Programmable GPIO Pin|
|7|GPIO_2|I/O|WL|GPIO_2|Programmable GPIO Pin|
|8|BT_REG_ON|I|BT|BT_REG_ON|Used by PMU to power up or power down the internal<br>CYW43455 regulators used by the BT section. Also,<br>when deasserted, this pin holds the BT section in reset.<br>This pin has an internal 200k ohm pull-down resistor that<br>is enabled by default. It can be disabled through<br>programming.|
|9|WL_REG_ON|I|WL|WL_REG_ON|Used by PMU to power up or power down the internal<br>CYW43455 regulators used by the WLAN section. Also,<br>when deasserted, this pin holds the WLAN section in<br>reset. This pin has an internal 200k ohm pull-down<br>resistor that is enabled by default. It can be disabled<br>through programming.|
|10|GND|-|-|-|-|
|11|VIO|I|-|VDDIO,<br>VDDIO_SD,<br>BT_VDDO|Supply for PMU, BT, WLAN, SDIO.|
|12|GND|-|-|-|-|
|13|GND|-|-|-|-|
|14|SDIO_DATA0|I/O|WL|SDIO_DATA0|SDIO data line 0|
|15|SDIO_CMD|I/O|WL|SDIO_CMD|SDIO command line|
|16|SDIO_DATA1|I/O|WL|SDIO_DATA1|SDIO data line 1|
|17|SDIO_DATA2|I/O|WL|SDIO_DATA2|SDIO data line 2|
|18|SDIO_DATA3|I/O|WL|SDIO_DATA3|SDIO data line 3|
|19|GND|-|-|-|-|
|20|SDIO_CLK|I|WL|SDIO_CLK|SDIO clock input|
|21|GND|-|-|-|-|
|22|VBAT_LDO|I|-|LDO_VDDBAT5V|Power supply|
|23|VBAT_SR|I|-|SR_VDDBAT5V|Power supply|
|24|SR_PVSS|-|-|-|Connect to GND|
|25|VIN_LDO|I|-|LDO_VDD1P5<br>LDO input|LDO input|
|26|SR_PVSS|-|-|-|Connect to GND|
|27||||||
|28|SR_VLX|O|-|SR_VLX|CBuck switching regulator output.|
|29|GND|-|-|-|-|
|30|LPO_IN|I|-|LPO_IN|External Sleep clock input(32.768kHz)|
|31|GPIO_7|I/O|WL|GPIO_7|Strapping option for SDIO I/F voltage<br>1=1.8V (NC)<br>0=3.3V (Pull down with 10k ohm resister)|
|32|BT_PCM_IN|I|BT|BT_PCM_IN|PCM data input or SLIMbus transport sensing.|



Preliminary < Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 

## Preliminary Specification Number: SP-HY1MW-N 9 / 61 

||||||9 / 61|
|---|---|---|---|---|---|
|33|BT_PCM_SYNC|I/O|BT|BT_PCM_SYNC|PCM sync; can be master(output) or slave(input), or<br>SLIMbus data.|
|34|BT_PCM_OUT|O|BT|BT_PCM_OUT|PCM data output|
|35|BT_PCM_CLK|I/O|BT|BT_PCM_CLK|PCM or SLIMbus clock; can be master(output) or<br>slave(input).|
|36|I2S_DO|I/O|BT|BT_I2S_DO|I2S data output|
|37|I2S_CLK|I/O|BT|BT_I2S_CLK|I2S clock, can be master (output) or slave (input).|
|38|I2S_WS|I/O|BT|BT_I2S_WS|I2S WS; can be master (output) or slave (input).|
|39|GND|-|-|-|-|
|40|BT_DEV_WAKE|I|BT|BT_DEV_WAKE|Bluetooth DEV_WAKE|
|41|BT_HOST_WA<br>KE|O|BT|BT_HOST_WAKE|Bluetooth HOST_WAKE|
|42|I2S_DI|I/O|BT|BT_I2S_DI|I2S data input|
|43|NC|-|-|-|-|
|44|GND|-|-|-|-|
|45|BT_UART_RXD|I|BT|BT_ UART_RXD|UART serial input. Serial data input for the HCI UART<br>interface.|
|46|BT_UART_TXD|O|BT|BT_ UART_TXD|UART serial output. Serial data output for the HCI UART<br>interface.|
|47|BT_UART_RTS<br>_N|O|BT|BT_ UART_RTS_N|UART request – to - send. Active - low request - to-send<br>signal for the HCI UART interface.|
|48|BT_UART_CTS<br>_N|I|BT|BT_ UART_CTS_N|UART clear – to - send. Active - low clear – to - send<br>signal for the HCI UART  interface.|
|49|GND|-|-|-|-|
|50|ANT|I/O|-|-|-|
|51|GND|-|-|-|-|
|52|GND|-|-|-|-|
|53|GND|-|-|-|-|
|54|NC|-|-|-|-|
|55|GND|-|-|-|-|
|56|GND|-|-|-|-|
|57|JTAG_SEL|I/O|-|JTAG_SEL|JTAG select. This pin must be connected to ground if<br>the JTAG/SWD interface is not used. It must be high to<br>select SWD OR JTAG. When JTAG_SEL=1:<br> ･GPIO_2 is TCK/SWCLK<br> ･GPIO_3 is TMS/SWDIO<br> ･GPIO_4 is TDIO<br> ･GPIO_5 is TDO<br> ･GPIO_6 is TRST_L|
|58|GND|-|-|-|-|
|59|GND|-|-|-|-|
|60|GND|-|-|-|-|
|61|GND|-|-|-|-|
|62|BT_GPIO_4|I/O|BT|BT_GPIO_4|Bluetooth general-purpose I/O.|
|63|BT_GPIO_3|I/O|BT|BT_GPIO_3|Bluetooth general-purpose I/O.|
|64|BT_GPIO_2|I/O|BT|BT_GPIO_2|Bluetooth general-purpose I/O.|
|65|BT_GPIO_5|I/O|BT|BT_GPIO_5|Bluetooth general-purpose I/O.|
|66-72|GND|-|-|-|-|



Preliminary < Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 

Preliminary Specification Number: SP-HY1MW-N 10 / 61 

## **8. POWER ON SEQUENCE** 

-VBAT should not rise 10%-90%faster than 40 microsecond. 

-VBAT should be up before or at the same time as VIO. VIO should NOT be present first or be held high before VBAT is high. 

## **8.1. Power On Sequence for WLAN ON and BT ON** 

|32.768kHz Sleep Clock|~~SUUUOUUODUU~~|~~SUUUOUUODUU~~|~~SUUUOUUODUU~~|~~SUUUOUUODUU~~|~~SUUUOUUODUU~~|~~SUUUOUUODUU~~|~~SUUUOUUODUU~~|~~SUUUOUUODUU~~|~~SUUUOUUODUU~~|
|---|---|---|---|---|---|---|---|---|---|
||~~SUUUOUUODUU~~|~~SUUUOUUODUU~~|~~SUUUOUUODUU~~|~~SUUUOUUODUU~~|~~SUUUOUUODUU~~|~~SUUUOUUODUU~~|~~SUUUOUUODUU~~|~~SUUUOUUODUU~~|~~SUUUOUUODUU~~|
|VBAT|||90% of VH<br>tN<br>a|||||90% of VH||
|VDDIO<br>VIO||||||||||
||||~2 Sleep cycle|||||||
|||||||||||
|WL_REG_ON||||||||||
|||||||||||
|BT_REG_ON||||||||||



## **8.2. Power On Sequence for WLAN ON and BT Off** 

|32.768kHz Sleep Clock|~~STUUUUUOUU~~|~~STUUUUUOUU~~|~~STUUUUUOUU~~|~~STUUUUUOUU~~|~~STUUUUUOUU~~|~~STUUUUUOUU~~|~~STUUUUUOUU~~|~~STUUUUUOUU~~|~~STUUUUUOUU~~|
|---|---|---|---|---|---|---|---|---|---|
||~~STUUUUUOUU~~|~~STUUUUUOUU~~|~~STUUUUUOUU~~|~~STUUUUUOUU~~|~~STUUUUUOUU~~|~~STUUUUUOUU~~|~~STUUUUUOUU~~|~~STUUUUUOUU~~|~~STUUUUUOUU~~|
|VBAT|||90% of VH<br>tN.<br>a.|||||90% of VH||
|VDDIO<br>VIO||||||||||
||||~2 Sleep cycle|||||||
|||||||||||
|WL_REG_ON||||||||||
|BT_REG_ON||||||||||



Preliminary < Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 

Preliminary Specification Number: SP-HY1MW-N 11 / 61 

## **8.3. Power On Sequence for WLAN OFF and BT ON** 

**==> picture [197 x 156] intentionally omitted <==**

**----- Start of picture text -----**<br>
||||
|---|---|---|
|32.768kHz Sleep Clock|
|VBAT|tN.|90% of VH|
|a|
|VDDIOVIO|
|~2 Sleep cycle|
|WL_REG_ON|
|BT_REG_ON|

**----- End of picture text -----**<br>


## **8.4. Power On Sequence for WLAN OFF and BT OFF** 

32.768kHz Sleep Clock VBAT VDDIOVIO WL_REG_ON BT_REG_ON 

Preliminary < Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 

Preliminary Specification Number: SP-HY1MW-N 12 / 61 

## **9. Digital I/O Requirements** 

|Digital I/O Pins|Sym|min.|typ.|max.|unit|
|---|---|---|---|---|---|
|For VIO=1.8V:<br> <br> <br> <br> <br>||||||
|Input high voltage|VIH|0.65xVIO|-|-|V|
|Input low voltage|VIL|-|-|0.35xVIO|V|
|Output high voltage@2mA|VOH|VIO-0.45|-|-|V|
|Output low voltage@2mA|VOL|-|-|0.45|V|
|For VIO=3.3V:<br> <br> <br> <br> <br>||||||
|Input high voltage|VIH|2.00|-|-|V|
|Input low voltage|VIL|-|-|0.80|V|
|Output high voltage@2mA|VOH|VIO-0.4|-|-|V|
|Output low voltage@2mA|VOL|-|-|0.40|V|



Preliminary < Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 

~~a~~ Preliminary Specification Number: SP-HY1MW-N 13 / 61 

## **10. INTERFACE TIMING AND AC CHARACTERISTICS** 

## **10.1. Bluetooth UART Timing** 

**==> picture [471 x 115] intentionally omitted <==**

**----- Start of picture text -----**<br>
BT_UART_CTS_N<br>2 Midpoint of STOP bit<br>BT_UART_TXD<br>1<br>Midpoint of STOP bit<br>BT_UART_RXD<br>3<br>BT_UART_RTS_N<br>**----- End of picture text -----**<br>


|Reference|Description|Min|Typ|Max|Unit|
|---|---|---|---|---|---|
|1|Delay time, BT_UART_CTS_N low to BT_UART_TXD valid|-|-|1.5|Bit periods|
|2|Setup time, BT_UART_CTS_N high before midpoint of stop bit|-|-|0.5|Bit periods|
|3|Delay time, midpoint of stop bit to BT_UART_RTS_N high|-|-|0.5|Bit periods|



## **10.2. Bluetooth PCM Interface Timing** 

## **10.2.1. Short Frame Sync, Master Mode** 

**==> picture [67 x 121] intentionally omitted <==**

**----- Start of picture text -----**<br>
BT_PCM_CLKBT_PCM_CLK<br>BT_PCM_SYNC<br>BT_PCM_SYNC<br>BT_PCM_OUTBT_PCM_OUT<br>BT_PCM_IN<br>BT_PCM_IN<br>**----- End of picture text -----**<br>


|Reference|Description|Min|Typ|Max|Unit|
|---|---|---|---|---|---|
|1|PCM bit clock frequency|-|-|12|MHz|
|2|PCM bit clock High|41|-|-|ns|
|3|PCM bit clock Low|41|-|-|ns|
|4|BT_PCM_SYNC delay|0|-|25|ns|
|5|BT_PCM_OUT delay|0|-|25|ns|
|6|BT_PCM_IN setup|8|-|-|ns|
|7|BT_PCM_IN hold|8|-|-|ns|
|8|Delay from rising edge of BT_PCM_CLK during last bit period to<br>BT_PCM_OUTbecominghigh impedance|0|-|25|ns|



Preliminary < Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 

Preliminary Specification Number: SP-HY1MW-N 14 / 61 

## **10.2.2. Short Frame Sync, Slave Mode** 

BT_PCM_CLKBT_PCM_CLK BT_PCM_SYNC BT_PCM_SYNC BT_PCM_OUTBT_PCM_OUT BT_PCM_IN BT_PCM_IN 

|Reference<br>~~a~~<br>~~es~~|Description<br>~~eG~~|Min<br>~~eG~~|Typ<br>~~eG~~|Max<br>~~eG~~|Unit<br>~~eG~~|
|---|---|---|---|---|---|
|1<br>~~a ~~<br>~~es~~<br>~~es~~|PCM bit clock frequency<br> ~~eG~~<br>~~eG~~|-<br>~~eG~~<br>~~eG~~|-<br>~~eG~~<br>~~eG~~|12<br>~~eG~~<br>~~eG~~|MHz<br>~~eG~~<br>~~eG~~|
|2<br>~~es~~<br>~~es~~<br>~~ee~~|PCM bit clock High<br>~~eG~~|41<br>~~eG~~|-<br>~~eG~~|-<br>~~eG~~|ns<br>~~eG~~|
|3<br>~~es~~<br>~~ee~~<br>~~es~~|PCM bit clock Low<br>~~eG~~<br>~~eG~~|41<br>~~eG~~<br>~~eG~~|-<br>~~eG~~<br>~~eG~~|-<br>~~eG~~<br>~~eG~~|ns<br>~~eG~~<br>~~eG~~|
|4<br>~~ee~~<br>~~es~~<br>~~ee~~|BT_PCM_SYNC setup<br>~~eG~~|8<br>~~eG~~|-<br>~~eG~~|-<br>~~eG~~|ns<br>~~eG~~|
|5<br>~~es~~<br>~~ee~~<br>~~es~~|BT_PCM_SYNC hold<br>~~eG~~|8<br>~~eG~~|-<br>~~eG~~|-<br>~~eG~~|ns<br>~~eG~~|
|6<br>~~ee~~<br>~~es~~<br>~~es~~|BT_PCM_OUT delay<br>~~eG~~|0<br>~~eG~~|-<br>~~eG~~|25<br>~~eG~~|ns<br>~~eG~~|
|7<br>~~es~~<br>~~es~~<br>~~ee~~|BT_PCM_IN setup<br>~~eG~~|8<br>~~eG~~|-<br>~~eG~~|-<br>~~eG~~|ns<br>~~eG~~|
|8<br>~~es~~<br>~~ee~~|BT_PCM_IN hold<br>~~eG~~|8<br>~~eG~~|-<br>~~eG~~|-<br>~~eG~~|ns<br>~~eG~~|
|9<br>~~ee~~|Delay from rising edge of BT_PCM_CLK during last bit period to<br>BT_PCM_OUT becoming high impedance|0|-|25|ns|



## **10.2.3. Long Frame Sync, Master Mode** 

BT_PCM_CLK BT_PCM_CLK BT_PCM_SYNC BT_PCM_SYNC BT_PCM_OUT BT_PCM_OUT BT_PCM_INBT_PCM_IN 

|Reference<br>~~es~~<br>~~ee~~|Description<br>~~a~~<br>~~GO~~|Min<br>~~a~~<br>~~GO~~|Typ<br>~~a~~<br>~~GO~~|Max<br>~~a~~<br>~~GO~~|Unit<br>~~a~~<br>~~GO~~|
|---|---|---|---|---|---|
|1<br>~~es~~<br>~~ee~~<br>~~es~~|PCM bit clock frequency<br>~~a~~<br>~~GO~~<br>~~GO~~|-<br>~~a~~<br>~~GO~~<br>~~GO~~|-<br>~~a~~<br>~~GO~~<br>~~GO~~|12<br>~~a~~<br>~~GO~~<br>~~GO~~|MHz<br>~~a~~<br>~~GO~~<br>~~GO~~|
|2<br>~~ee~~<br>~~es~~<br>~~ee~~|PCM bit clock High<br>~~GO~~<br>~~GO~~|41<br>~~GO~~<br>~~GO~~|-<br>~~GO~~<br>~~GO~~|-<br>~~GO~~<br>~~GO~~|ns<br>~~GO~~<br>~~GO~~|
|3<br>~~es~~<br>~~ee~~<br>~~es~~|PCM bit clock Low<br>~~GO~~|41<br>~~GO~~|-<br>~~GO~~|-<br>~~GO~~|ns<br>~~GO~~|
|4<br>~~ee~~<br>~~es~~<br>~~ee~~|BT_PCM_SYNC delay|0|-|25|ns|
|5<br>~~es~~<br>~~ee~~<br>~~es~~|BT_PCM_OUT delay|0|-|25|ns|
|6<br>~~ee~~<br>~~es~~<br>~~es~~|BT_PCM_IN setup|8|-|-|ns|
|7<br>~~es~~<br>~~es~~|BT_PCM_IN hold|8|-|-|ns|
|8<br>~~es~~|Delay from rising edge of BT_PCM_CLK during last bit period to<br>BT_PCM_OUTbecominghigh impedance|0|-|25|ns|



Preliminary 

< Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 

Preliminary Specification Number: SP-HY1MW-N 15 / 61 

## **10.2.4. Long Frame Sync, Slave Mode** 

BT_PCM_CLK BT_PCM_SYNC BT_PCM_OUT 

BT_PCM_IN 

~~a~~ Reference ~~a~~ Description Min Typ Max Unit ~~i~~ 1 PCM bit clock frequency - - 12 MHz 2 PCM bit clock High 41 - - ns ~~eeeG i~~ 3 ~~eG~~ PCM bit clock Low 41 - - ns ~~i~~ 4 ~~eG~~ BT_PCM_SYNC setup 8 - - ns 5 BT_PCM_SYNC hold 8 - - ns ~~ee i~~ 6 ~~eG~~ BT_PCM_OUT delay 0 - 25 ns ~~i~~ 7 BT_PCM_IN setup 8 - - ns 8 BT_PCM_IN hold 8 - - ns ~~ee~~ 9 Delay from rising edge of BT_PCM_CLK during last bit period to 0 - 25 ns BT_PCM_OUT becoming high impedance 

Preliminary < Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 

Preliminary Specification Number: SP-HY1MW-N 16 / 61 

## **10.2.5. Short Frame Sync, Burst Mode** 

**==> picture [92 x 59] intentionally omitted <==**

**----- Start of picture text -----**<br>
BT_PCM_CLK<br>BT_PCM_SYNC<br>__/<br>**----- End of picture text -----**<br>


BT_PCM_IN 

~~a~~ Reference ~~OO~~ Description Min Typ Max Unit ~~a~~ 1 ~~eG~~ PCM bit clock frequency - - ~~(~~ 24 MHz ~~eG~~ 2 PCM bit clock Low 20.8 - - ns ~~a~~ 3 ~~CO~~ PCM bit clock High 20.8 - - ns ~~eG~~ 4 BT_PCM_SYNC setup 8 - - ns ~~a~~ 5 ~~OO~~ BT_PCM_SYNC hold 8 - - ns ~~a~~ 6 ~~eG~~ BT_PCM_IN setup 8 - - ns ~~a~~ 7 BT_PCM_IN hold 8 - - ns 

Preliminary < Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 

Preliminary Specification Number: SP-HY1MW-N 17 / 61 

## **10.2.6. Long Frame Sync, Burst Mode** 

BT_PCM_CLK BT_PCM_SYNC BT_PCM_IN 

**==> picture [439 x 98] intentionally omitted <==**

**----- Start of picture text -----**<br>
|||||||
|---|---|---|---|---|---|
|Reference|Description|Min|Typ|Max|Unit|
|1|PCM bit clock frequency|-|-|24|MHz|
|2|PCM bit clock Low|20.8|-|-|ns|
|3|PCM bit clock High|20.8|-|-|ns|
|4|BT_PCM_SYNC setup|8|-|-|ns|
|5|BT_PCM_SYNC hold|8|-|-|ns|
|6|BT_PCM_IN setup|8|-|-|ns|
|7|BT_PCM_IN hold|8|-|-|ns|

**----- End of picture text -----**<br>


Preliminary < Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 

Preliminary Specification Number: SP-HY1MW-N 18 / 61 

## **10.3. I[2] S Timing** 

||**Transmitter **|**Transmitter **|**Transmitter **|**Transmitter **|**Receiver **|**Receiver **|**Receiver **|**Receiver **|**Receiver **|
|---|---|---|---|---|---|---|---|---|---|
||**Lower Limit**||**Upper Limit**||**Lower Limit**||**Upper Limit**|||
||**Min**|**Max **|**Min**|**Max **|**Min**|**Max **|**Min**|**Max **|**Notes**|
|Clock PeriodT T|T Ttr|-|-|-|Ttr|-|-|-|a|
|**Master Mode: Clock generated by transmitter or receiver **||||||||||
|HIGHtHC|0.35Ttr|-|-|-|0.35Ttr|-|-|-|b|
|LOWtLC|0.35Ttr|-|-|-|0.35Ttr|-|-|-|b|
|**Slave Mode: Clock accepted by transmitter or receiver**||||||||||
|HIGH hTC|-|0.35Ttr|-|-|-|0.35Ttr|-|-|c|
|LOWtLC|-|0.35Ttr|-|-|-|0.35Ttr|-|-|c|
|Rise time tRC|-|-|0.15Ttr|-|-|-|-|-|d|
|**Transmitter**||||||||||
|Delay tdtr|-|-|-|0.8T|-|-|-|-|e|
|Hold time thtr|0|-|-|-|-|-|-|-|d|
|**Receiver **||||||||||
|Setup time tsr|-|-|-|-|-|0.2Tr|-|-|f|
|Hold time thr|-|-|-|-|-|0|-|-|f|



- 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. 

Preliminary < Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 

Preliminary Specification Number: SP-HY1MW-N 19 / 61 

## **10.3.1. I[2] S Transmitter Timing** 

## **10.3.2. I[2] S Receiver Timing** 

Preliminary < Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 

Preliminary Specification Number: SP-HY1MW-N 20 / 61 

## **10.5. WLAN SDIO Timing 10.5.1. SDIO Default Mode Timing** 

**==> picture [173 x 128] intentionally omitted <==**

**----- Start of picture text -----**<br>
fPP<br>><br>tWL tWH<br>dl<br>SDIO_     CLK<br>tTH L tTLH<br>tISU tIH<br>—_<br>Input<br>Output<br>mm — _-<br>tODLY tODLY<br>(max) (min)<br>**----- End of picture text -----**<br>


|Parameter|Symbol|Min|Typ|Max|Unit|
|---|---|---|---|---|---|
|SDIO CLK(All values arereferred tominimum VIHandmaximum VIL(b)||||||
|Frequency-Data Transfer Mode|fPP|0|-|25|MHz|
|Frequency-Identification Mode|fOD|0|-|400|kHz|
|Clock Low Time|tWL|10|-|-|ns|
|Clock High Time|tWH|10|-|-|ns|
|Clock Rise Time|tTLH|-|-|10|ns|
|Clock low Time|tTHL|-|-|10|ns|
|Inputs:CMD,DAT(referenced to CLK)||||||
|Input SetupTime|tISU|5|-|-|ns|
|Input Hold Time|tIH|5|-|-|ns|
|Outputs:CMD,DAT(referenced to CLK)||||||
|Output Delaytime-Data Transfer Mode|tODLY|0|-|14|ns|
|Output Delaytime-Identification Mode|tODLY|0|-|50|ns|



(a). Timing is based on CL < 40pF load on CMD and Data. 

(b). Min (Vih) = 0.7*VIO and max (Vil) = 0.2*VIO. 

Preliminary < Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 

Preliminary Specification Number: SP-HY1MW-N 21 / 61 

## **10.5.2. SDIO High-Speed Mode Timing** 

**==> picture [436 x 371] intentionally omitted <==**

**----- Start of picture text -----**<br>
|||||||
|---|---|---|---|---|---|
|fPP|
|aal|
|50% VDD|tWL|tWH|
|SDIO_     CLK|
|tTH|L|tTLH|
|tISU|tIH|
|Input|
|Output|
|<_|——————|tODLY|_|:|tOH|
|SDIO Bus Timing|[(a)]|parameters|(High-Speed Mode)|
|Parameter|Symbol|Min|Typ|Max|Unit|
|SDIO|CLK (All values|are referred|to minimum VIH and maximum VIL|[(b)]|
|Frequency-Data Transfer Mode|fPP|0|-|50|MHz|
|Frequency-Identification Mode|fOD|0|-|400|kHz|
|Clock Low Time|tWL|7|-|-|ns|
|Clock High Time|tWH|7|-|-|ns|
|Clock Rise Time|tTLH|-|-|3|ns|
|Clock low Time|tTHL|-|-|3|ns|
|Inputs: CMD, DAT (referenced to CLK)|
|Input Setup Time|tISU|6|-|-|ns|
|Input Hold Time|tIH|2|-|-|ns|
|Outputs: CMD, DAT (referenced|to|CLK)|
|Output Delay time-Data Transfer Mode|tODLY|-|-|14|ns|
|Output Hold time|tOH|2.5|-|-|ns|
|Total System Capacitance (each line)|CL|-|-|40|pF|

**----- End of picture text -----**<br>


(a). Timing is based on CL < 40pF load on CMD and Data. 

(b). Min (Vih) = 0.7*VIO and max (Vil) = 0.2*VIO 

## **10.5.3. SDIO BUS Timing Specifications in SDR Modes** 

## **Clock Timing** 

**==> picture [357 x 100] intentionally omitted <==**

**----- Start of picture text -----**<br>
tCLK<br>SDIO_CLK<br>tCR tCF tCR<br>**----- End of picture text -----**<br>


Preliminary < Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 

Preliminary Specification Number: SP-HY1MW-N 22 / 61 

SDIO Bus Clock Timing Parameters (SDR Modes) 

|Parameter|Symbol|Min|Max|Unit|Comments|
|---|---|---|---|---|---|
|-<br> <br> <br>|tCLK<br> <br> <br>|40|-|ns|SDR12 mode|
|||20|-|ns|SDR25 mode|
|||10|-|ns|SDR50 mode|
|||4.8|-|ns|SDR104 mode|
|-|tCR,tCF|-<br>|0.2 x<br>tCLK|ns|tCR,tCF<2.00ns(max)@100MHz,cCARD=10pF<br>tCR,tCF<0.96ns(max)@208MHz,cCARD=10pF|
|Clock duty<br>cycle|-<br>|30<br>|70<br>|%<br>|-<br>|



## **Card Input Timing** 

**==> picture [72 x 109] intentionally omitted <==**

**----- Start of picture text -----**<br>
SDIO_CLK<br>CMD  input<br>DAT[3:0] input<br>**----- End of picture text -----**<br>


**==> picture [52 x 8] intentionally omitted <==**

**----- Start of picture text -----**<br>
tIS tIH<br>**----- End of picture text -----**<br>


## SDIO Bus Input Timing Parameters ( SDR Modes) 

|Symbol|Min|Max|Unit|Comments|
|---|---|---|---|---|
|SDR104 Mode|||||
|tIS|1.4|-|ns|cCARD = 10pF,VCT = 0.975V|
|tIH|0.8|-|ns|cCARD = 5pF,VCT = 0.975V|
|SDR50 Mode|||||
|tIS|3.0|-|ns|cCARD = 10pF,VCT = 0.975V|
|tIH|0.8|-|ns|cCARD = 5pF,VCT = 0.975V|



Preliminary < Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 

Preliminary Specification Number: SP-HY1MW-N 23 / 61 

## **Card Output Timing** 

SDIO Bus Ouput Timing ( SDR Modes up to 100MHz) tCLK SDIO_CLK tODLY tOH CMD  input DAT[3:0] input ~~oe ik~~ SDIO Bus Ouput Timing Parameters ( SDR Modes up to 100MHz) Symbol Min Max Unit Comments tODLY - 7.5 ns tCLK ≧ 10ns CL = 30pF using driver type B for SDR50 tODLY - 14.0 ns tCLK ≧ 20ns CL = 40pF using for SDR12,SDR25 ~~————————~~ tOH 1.5 - ns Hold time at the tODLY(min) CL = 15pF SDIO Bus Ouput Timing ( SDR Modes 100MHz to 208MHz) tCLK SDIO_CLK tOP tODW ~~{I~~ CMD  input DAT[3:0] ~~—>f_~~ SDIO Bus Ouput Timing Parameters ( SDR Modes 100MHz to 208MHz) Symbol Min Max Unit Comments tOP 0 2 UI Card output phase ΔtOP -350 +1550 ps Delay variation due to temp change after tuning tODW 0.60 - UI tODW = 2.88ns @208MHz ~~—————~~ 

Preliminary < Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 

Preliminary Specification Number: SP-HY1MW-N 24 / 61 

- `･` Δtop=+1550ps for junction temperature of Δtop=90 `℃` during operation. 

- `･` Δtop=-350ps for junction temperature of Δtop=-20 `℃` during operation. 

- `･` Δtop=+2600ps for junction temperature of Δtop=-20 `℃` to +125 `℃` during operation 

Δtop Consideration for Variable Data Window (SDR 104 Mode) 

## **10.5.4. SDIO Timing Specifications in DDR50 Mode** 

SDIO Clock Timing (DDR50 Mode) 

SDIO Bus Clock Timing Parameters ( DDR50 Mode) 

|Parameter|Symbol|Min|Max|Unit|Comments|
|---|---|---|---|---|---|
|-|tCLK|20|-|ns|DDr50 mode|
|-|tCR, tCF|-|0.2 x tCLK|ns|tCR, tCF<4.00ns(max)@50MHz,<br>cCard=10pF|
|Clock duty<br>cycle|-|45|55|%|-|



Preliminary < Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 

Preliminary Specification Number: SP-HY1MW-N 25 / 61 

SDIO Data Timing (DDR50 Mode) 

|Parameter|Symbol|Min|Max|Unit|Comments|
|---|---|---|---|---|---|
|Input CMD||||||
|Input setup time|tISU|6|-|ns|Ccard<10pF(1card)|
|Inputhold time|tIH|0.8|-|ns|Ccard<10pF(1card)|
|Output CMD||||||
|Output delay time|tODLY|-|13.7|ns|Ccard<30pF (1 card)|
|Outputhold time|tOH|1.5|-|ns|Ccard<15pF(1card)|
|InputDAT||||||
|Input setup time|tISU2x|3|-|ns|Ccard<10pF(1card)|
|Inputhold time|tIH2x|0.8|-|ns|Ccard<10pF(1card)|
|Output DAT||||||
|Output delay time|tODLY2x|-|7.5|ns|Ccard<25pF(1card)|
|Outputhold time|tOH2x|1.5|-|ns|Ccard<15pF(1card)|



Preliminary < Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 

Preliminary Specification Number: SP-HY1MW-N 26 / 61 

## **11. ELECTRICAL CHARACTERISTICS** 

## **11.1. DC/RF Characteristics for IEEE802.11b - 2.4GHz** 

|Specification|IEEE802.11b|
|---|---|
|Mode|DSSS / CCK|
|Frequency|2400- 2483.5MHz|
|Datarate|1,2, 5.5,11Mbps|



## **11.1.1. High Rate Condition for IEEE802.11b – 2.4GHz** 

Normal Condition : 25deg.C, VBAT=3.3V. Output power setting=17dBm, **11Mbps.** 

|Items|Contents|Contents|Contents|Contents|
|---|---|---|---|---|
|- DC Characteristics -|Min.|Typ.|Max.|Unit|
|1. DC current|||||
|1) Tx mode<br>(1024byte,20usecinterval)*2|-|-|420|mA|
|2)Rx mode|-|-|80|mA|
|- Tx Characteristics *2 -|Min.|Typ.|Max.|Unit|
|2.OutputPower|14.5|17|19.5|dBm|
|3.Spectrum Mask Margin|||||
|1)1st sidelobes(-30dBr)|0|-|-|dB|
|2)2nd side lobes(-50dBr)|0|-|-|dB|
|4. Power-on/off ramp|-|-|2.0|Usec|
|5. RFCarrierSuppression|15|-|-|dB|
|6. Modulation Accuracy|-|-|35|%|
|7. Frequencytolerance|-20||20|ppm|
|8. Spurious Emissions(BW=100kHz)|||||
|1)30-1000MHz|-|-|-36|dBm|
|2)1000-12750MHz|-|-|-30|dBm|
|3)1800-1900MHz|-|-|-47|dBm|
|4) 5150-5300MHz|-|-|-47|dBm|
|- RxCharacteristics-|Min.|Typ.|Max.|Unit|
|9. Minimum InputLevel(FER< 8%)|-|-|-76|dBm|
|put<br>10. Maximum Input Level (FER< 8%)|-10|-|-|dBm|
|10. Maximum Input Level (FER< 8%)<br>11. Adjacent Channel Rejection<br> (FER< 8%)|35|-|-|dB|



*2: Defined when output power setting is 17dBm at Murata module antenna pad 

Preliminary < Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 

Preliminary Specification Number: SP-HY1MW-N 27 / 61 

## **11.1.2. Low Rate Condition for IEEE802.11b – 2.4GHz** 

|Items|Contents|Contents|Contents|Contents|
|---|---|---|---|---|
|- DC Characteristics -|Min.|Typ.|Max.|Unit|
|2. DC current|||||
|2) Tx mode<br>(1024byte,20usecinterval)*3|-|-|430|mA|
|2)Rx mode|-|-|80|mA|
|- TxCharacteristics*3-|Min.|Typ.|Max.|Unit|
|2.OutputPower|14.5|17|19.5|dBm|
|3.Spectrum Mask Margin|||||
|1)1st sidelobes(-30dBr)|0|-|-|dB|
|2)2nd sidelobes(-50dBr)|0|-|-|dB|
|4. Power-on/off ramp|-|-|2.0|Usec|
|5. RF Carrier Suppression|15|-|-|dB|
|6. Modulation Accuracy|-|-|35|%|
|7. Frequencytolerance|-20||20|ppm|
|8. Spurious Emissions(BW=100kHz)|||||
|1)30-1000MHz|-|-|-36|dBm|
|2)1000-12750MHz|-|-|-30|dBm|
|3)1800-1900MHz|-|-|-47|dBm|
|4)5150-5300MHz|-|-|-47|dBm|
|- Rx Characteristics -|Min.|Typ.|Max.|Unit|
|9. Minimum InputLevel(FER< 8%)|-|-|-76|dBm|
|10. Maximum InputLevel(FER< 8%)|-4|-|-|dBm|
|put<br>11. Adjacent Channel Rejection<br> (FER< 8%)|35|-|-|dB|



*3: Defined when output power setting is 17dBm at Murata module antenna pad 

Preliminary < Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 

Preliminary Specification Number: SP-HY1MW-N 28 / 61 

## **11.2. DC/RF Characteristics for IEEE802.11g - 2.4GHz** 

|Specification|IEEE802.11g|
|---|---|
|Mode|OFDM|
|Frequency|2400- 2483.5MHz|
|Data rate|6,9,12,18,24,36,48,54Mbps|



## **11.2.1. High Rate Condition for IEEE802.11g – 2.4GHz** 

## Normal Condition : 25deg.C, VBAT=3.3V. Output power setting=13dBm, **54Mbps** . 

|Items|Contents|Contents|Contents|Contents|
|---|---|---|---|---|
|- DC Characteristics-|Min.|Typ.|Max.|Unit|
|1. DC current|||||
|1) Tx mode<br>(1024byte,20usec interval)*4|-|-|370|mA|
|2)Rx mode|-|-|80|mA|
|- Tx Characteristics*4 -|Min.|Typ.|Max.|unit|
|2.OutputPower|10.5|13.0|15.5|dBm|
|3.Spectrum Mask Margin|||||
|1) 9MHzto11MHz(0~ -20dBr)|0|-|-|dB|
|2)11MHzto20MHz(-20~ -28dBr)|0|-|-|dB|
|3)20MHzto 30MHz(-28~ -40dBr)|0|-|-|dB|
|4) 30MHzto 33MHz(-40dBr)|0|-|-|dB|
|4. Constellation Error (EVM)|-|-|-25|dB|
|5. Frequency tolerance|-20||20|ppm|
|6.Outband SpuriousEmissions|||||
|1) 30MHzto1GHz(BW=100kHz)|-|-|-36|dBm|
|2) 1GHz to 12.75GHz (BW=100kHz)|-|-|-30|dBm|
|3)1.8GHzto1.9GHz(BW=100kHz)|-|-|-47|dBm|
|4)5.15GHz to 5.3GHz(BW=100kHz)|-|-|-47|dBm|
|- Rx Characteristics -|Min.|Typ.|Max.|Unit|
|7. Minimum InputLevel(PER<10%)|-|-|-65|dBm|
|8. Maximum InputLevel(PER<10%)|-20|-|-|dBm|
|9. Adjacent Channel Rejection<br> (PER<10%)|-1|-|-|dB|



*4: Defined when output power setting is 13dBm at Murata module antenna pad 

Preliminary < Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 

Preliminary Specification Number: SP-HY1MW-N 29 / 61 

## **11.2.2. Low Rate Condition for IEEE802.11g – 2.4GHz** 

## Normal Condition : 25deg.C, VBAT=3.3V. Output power setting=16dBm, **6Mbps** . 

|Items|Contents|Contents|Contents|Contents|
|---|---|---|---|---|
|- DC Characteristics -|Min.|Typ.|Max.|Unit|
|1. DC current|||||
|2) Tx mode<br>(1024byte,20usec interval)*5|-|-|420|mA|
|2)Rx mode|-|-|80|mA|
|- TxCharacteristics*5-|Min.|Typ.|Max.|unit|
|2.OutputPower|13.5|16.0|18.5|dBm|
|3.Spectrum Mask Margin|||||
|1) 9MHzto11MHz(0~ -20dBr)|0|-|-|dB|
|2)11MHzto20MHz(-20~ -28dBr)|0|-|-|dB|
|3)20MHzto 30MHz(-28~ -40dBr)|0|-|-|dB|
|4) 30MHzto 33MHz(-40dBr)|0|-|-|dB|
|4.Constellation Error(EVM)|-|-|-5|dB|
|5. Frequency tolerance|-20||20|ppm|
|6.Outband SpuriousEmissions|||||
|1) 30MHzto1GHz(BW=100kHz)|-|-|-36|dBm|
|2)1GHzto12.75GHz(BW=100kHz)|-|-|-30|dBm|
|3)1.8GHzto1.9GHz(BW=100kHz)|-|-|-47|dBm|
|4)5.15GHz to 5.3GHz(BW=100kHz)|-|-|-47|dBm|
|- Rx Characteristics -|Min.|Typ.|Max.|Unit|
|7. Minimum InputLevel(PER<10%)|-|-|-82|dBm|
|8. Maximum Input Level (PER < 10%)|-20|-|-|dBm|
|8. Maximum Input Level (PER < 10%)<br>9. Adjacent Channel Rejection<br> (PER<10%)|16|-|-|dB|



*5: Defined when output power setting is 16dBm at Murata module antenna pad 

Preliminary < Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 

Preliminary Specification Number: SP-HY1MW-N 30 / 61 

## **11.3. DC/RF Characteristics for IEEE802.11n - 2.4GHz** 

|Specification|IEEE802.11n|
|---|---|
|Mode|OFDM|
|Frequency|2400- 2483.5MHz|
|Data rate|6.5,13,19.5,26,39,52,58.5,65Mbps|



## **11.3.1. High Rate Condition for IEEE802.11n – 2.4GHz** 

Normal Condition : 25deg.C, VBAT=3.3V. Output power setting=12dBm, **65Mbps(MCS7)** . 

|Items|Contents|Contents|Contents|Contents|
|---|---|---|---|---|
|- DC Characteristics -|Min.|Typ.|Max.|Unit|
|1. DC current|||||
|3) Tx mode<br>(1024byte,20usecinterval)*6|-|-|360|mA|
|2)Rx mode|-|-|80|mA|
|- Tx Characteristics*6 -|Min.|Typ.|Max.|unit|
|2.OutputPower|9.5|12.0|14.5|dBm|
|3.Spectrum Mask Margin|||||
|1) 9MHzto11MHz(0~ -20dBr)|0|-|-|dB|
|2)11MHzto20MHz(-20~ -28dBr)|0|-|-|dB|
|3)20MHzto 30MHz(-28~ -45dBr)|0|-|-|dB|
|4) 30MHzto 33MHz(-45dBr)|0|-|-|dB|
|4.Constellation Error(EVM)|-|-|-27|dB|
|5. Frequency tolerance|-20||20|ppm|
|6.Outband SpuriousEmissions|||||
|1) 30MHzto1GHz(BW=100kHz)|-|-|-36|dBm|
|2)1GHzto12.75GHz(BW=100kHz)|-|-|-30|dBm|
|3)1.8GHzto1.9GHz(BW=100kHz)|-|-|-47|dBm|
|4) 5.15GHzto 5.3GHz(BW=100kHz)|-|-|-47|dBm|
|- RxCharacteristics-|Min.|Typ.|Max.|Unit|
|7. Minimum InputLevel(PER<10%)|-|-|-64|dBm|
|put<br>8. Maximum InputLevel(PER<10%)|-20|-|-|dBm|
|9. Adjacent Channel Rejection<br> (PER<10%)|-2|-|-|dB|



*6: Defined when output power setting is 12dBm at Murata module antenna pad 

Preliminary < Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 

Preliminary Specification Number: SP-HY1MW-N 31 / 61 

## **11.3.2. Low Rate Condition for IEEE802.11n – 2.4GHz** 

Normal Condition : 25deg.C, VBAT=3.3V. Output power setting=14dBm, **6.5Mbps(MCS0)** . 

|Items|Contents|Contents|Contents|Contents|
|---|---|---|---|---|
|- DC Characteristics -|Min.|Typ.|Max.|Unit|
|1. DC current|||||
|4) Tx mode<br>(1024byte,20usec interval)*7|-|-|410|mA|
|2)Rx mode|-|-|80|mA|
|- TxCharacteristics*7 -|Min.|Typ.|Max.|unit|
|2.OutputPower|11.5|14.0|16.5|dBm|
|3.Spectrum Mask Margin|||||
|1) 9MHzto11MHz(0~ -20dBr)|0|-|-|dB|
|2)11MHzto20MHz(-20~ -28dBr)|0|-|-|dB|
|3)20MHzto 30MHz(-28~ -45dBr)|0|-|-|dB|
|4) 30MHzto 33MHz(-45dBr)|0|-|-|dB|
|4.Constellation Error(EVM)|-|-|-5|dB|
|5. Frequency tolerance|-20||20|ppm|
|6.Outband SpuriousEmissions|||||
|1) 30MHzto1GHz(BW=100kHz)|-|-|-36|dBm|
|2)1GHzto12.75GHz(BW=100kHz)|-|-|-30|dBm|
|3)1.8GHzto1.9GHz(BW=100kHz)|-|-|-47|dBm|
|4)5.15GHz to 5.3GHz(BW=100kHz)|-|-|-47|dBm|
|- Rx Characteristics -|Min.|Typ.|Max.|Unit|
|7. Minimum InputLevel(PER<10%)|-|-|-82|dBm|
|8. Maximum Input Level (PER < 10%)|-20|-|-|dBm|
|8. Maximum Input Level (PER < 10%)<br>9. Adjacent Channel Rejection<br> (PER<10%)|16|-|-|dB|



*7: Defined when output power setting is 14dBm at Murata module antenna pad 

Preliminary < Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 

Preliminary Specification Number: SP-HY1MW-N 32 / 61 

## **11.4. DC/RF Characteristics for IEEE802.11a - 5GHz** 

|Specification|IEEE802.11a|
|---|---|
|Mode|OFDM|
|Frequency|5180-5825MHz|
|Data rate|6,9,12,18,24,36,48,54Mbps|



## **11.4.1. High Rate Condition for IEEE802.11a – 5GHz** 

## Normal Condition : 25deg.C, VBAT=3.3V. Output power setting=13dBm, **54Mbps** . 

|Items|Contents|Contents|Contents|Contents|
|---|---|---|---|---|
|- DC Characteristics -|Min.|Typ.|Max.|Unit|
|1. DC current|||||
|5) Tx mode<br>(1024byte,20usec interval)*8|-|-|330|mA|
|2)Rx mode|-|-|100|mA|
|- TxCharacteristics*8-|Min.|Typ.|Max.|unit|
|2.OutputPower|11.0|13.0|15.0|dBm|
|3.Spectrum Mask Margin|||||
|1) 9MHzto11MHz(0~ -20dBr)|0|-|-|dB|
|2)11MHzto20MHz(-20~ -28dBr)|0|-|-|dB|
|3)20MHzto 30MHz(-28~ -40dBr)|0|-|-|dB|
|4) 30MHz to 33MHz (-40dBr)|0|-|-|dB|
|4.Constellation Error(EVM)|-|-|-25|dB|
|5. Frequency tolerance|-20||20|ppm|
|6.Outband SpuriousEmissions|||||
|1) 30MHzto1GHz(BW=100kHz)|-|-|-36|dBm|
|2)1GHzto12.75GHz(BW=100kHz)|-|-|-30|dBm|
|3)1.8GHzto1.9GHz(BW=100kHz)|-|-|-47|dBm|
|4)5.15GHz to 5.3GHz(BW=100kHz)|-|-|-47|dBm|
|- Rx Characteristics -|Min.|Typ.|Max.|Unit|
|7. Minimum InputLevel(PER<10%)|-|-|-65|dBm|
|8. Maximum InputLevel(PER<10%)|-30|-|-|dBm|
|put<br>9. Adjacent Channel Rejection<br> (PER<10%)|-1|-|-|dB|



*8: Defined when output power setting is 13dBm at Murata module antenna pad 

Preliminary < Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 

Preliminary Specification Number: SP-HY1MW-N 33 / 61 

## **11.4.2. Low Rate Condition for IEEE802.11a – 5GHz** 

Normal Condition : 25deg.C, VBAT=3.3V. Output power setting=15dBm, **6Mbps** . 

**==> picture [452 x 318] intentionally omitted <==**

**----- Start of picture text -----**<br>
||||||||
|---|---|---|---|---|---|---|
|Items|Contents|
|- DC Characteristics -|Min.|Typ.|Max.|Unit|
|1. DC current|
|1) Tx mode|
|-|-|360|mA|
|(1024byte, 20usec interval)*9|
|-|
|2)  Rx mode|-|100|mA|
|- Tx Characteristics*9 -|Min.|Typ.|Max.|unit|
|2. Output Power|13.0|15.0|17.0|dBm|
|3. Spectrum Mask Margin|
|1)|9MHz to 11MHz (0~ -20dBr)|0|-|-|dB|
|2) 11MHz to 20MHz (-20~ -28dBr)|0|-|-|dB|
|3) 20MHz to|30MHz (-28~ -40dBr)|0|-|-|dB|
|4)|30MHz to|33MHz (-40dBr)|0|-|-|dB|
|4. Constellation Error (EVM)|-|-|-5|dB|
|5. Frequency|tolerance|-20|20|ppm|
|6. Outband|Spurious Emissions|
|1)|30MHz to 1GHz (BW=100kHz)|-|-|-36|dBm|
|2) 1GHz to 12.75GHz (BW=100kHz)|-|-|-30|dBm|
|3) 1.8GHz to 1.9GHz (BW=100kHz)|-|-|-47|dBm|
|4) 5.15GHz to 5.3GHz (BW=100kHz)|-|-|-47|dBm|
|- Rx Characteristics -|Min.|Typ.|Max.|Unit|
|7. Minimum Input Level (PER < 10%)|-|-|-82|dBm|
|8. Maximum Input Level (PER < 10%)|-30|-|-|dBm|
|9. Adjacent Channel Rejection|
|16|-|-|dB|
|(PER < 10%)|

**----- End of picture text -----**<br>


*9: Defined when output power setting is 15dBm at Murata module antenna pad 

Preliminary < Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 

Preliminary Specification Number: SP-HY1MW-N 34 / 61 

## **11.5. DC/RF Characteristics for IEEE802.11n(HT 40MHz) - 5GHz** 

|Specification|IEEE802.11n(HT40)|
|---|---|
|Mode|OFDM|
|Frequency|5190-5795MHz|
|Data rate|13.5,27,40.5,54,81,108,121.5,135Mbps|



## **11.5.1. High Rate Condition for IEEE802.11n(HT 40MHz) – 5GHz** 

Normal Condition : 25deg.C, VBAT=3.3V. Output power setting=13dBm, **135Mbps(MCS7)** 

|Items|Contents|Contents|Contents|Contents|
|---|---|---|---|---|
|- DC Characteristics -|min.|typ.|max.|unit|
|1. DC current|||||
|1) Tx mode<br>(1024byte,20usecinterval)*10|-|-|310|mA|
|2)Rx mode|-|-|110|mA|
|- Tx Characteristics*10 -|min.|typ.|max.|unit|
|2.OutputPower|11.0|13.0|15.0|dBm|
|3.Spectrum Mask margin|||||
|1)19MHzto21MHz(0~ -20dBr)|0|-|-|dB|
|2)21MHzto40MHz(-20~ -28dBr)|0|-|-|dB|
|3)40MHzto 60MHz(-28~ -45dBr)|0|-|-|dB|
|4) 60MHzto 80MHz(-45dBr)|0|-|-|dB|
|4.Constellation Error(EVM)|-|-|-27|dB|
|5.Frequency tolerance|-20||20|ppm|
|- RxCharacteristics-|min.|typ.|max.|unit|
|6. Minimum Input Level (PER < 10%)|-|-|-61|dBm|
|6. Minimum Input Level (PER < 10%)<br>7. Maximum InputLevel(PER<10%)|-30|-|-|dBm|
|7. Adjacent Channel Rejection<br> (PER<10%)|-2|-|-|dB|



*10: Defined when output power setting is 13.0dBm at Murata module antenna pad 

Preliminary < Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 

Preliminary Specification Number: SP-HY1MW-N 35 / 61 

## **11.5.2. Low Rate Condition for IEEE802.11n(HT 40MHz) – 5GHz** 

## Normal Condition : 25deg.C, VBAT=3.3V. Output power setting=15dBm, **13.5Mbps(MCS0)** . 

|Items|Contents|Contents|Contents|Contents|
|---|---|---|---|---|
|- DC Characteristics -|min.|typ.|max.|unit|
|1. DC current|||||
|2) Tx mode<br>(1024byte,20usecinterval)*11|-|-|370|mA|
|2)Rx mode|-|-|110|mA|
|- Tx Characteristics*11 -|min.|typ.|max.|unit|
|2.OutputPower|13.0|15.0|17.0|dBm|
|3.Spectrum Mask margin|||||
|1)19MHzto21MHz(0~ -20dBr)|0|-|-|dB|
|2)21MHzto40MHz(-20~ -28dBr)|0|-|-|dB|
|3)40MHzto 60MHz(-28~ -45dBr)|0|-|-|dB|
|4) 60MHzto 80MHz(-45dBr)|0|-|-|dB|
|4.Constellation Error(EVM)|-|-|-5|dB|
|5.Frequencytolerance|-20||20|ppm|
|- RxCharacteristics-|min.|typ.|max.|unit|
|6. Minimum InputLevel(PER<10%)|-|-|-79|dBm|
|put<br>7. Maximum InputLevel(PER<10%)|-30|-|-|dBm|
|put<br>8. Adjacent Channel Rejection<br> (PER<10%)|16|-|-|dB|



*11: Defined when output power setting is 15.0dBm at Murata module antenna pad 

Preliminary < Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 

Preliminary Specification Number: SP-HY1MW-N 36 / 61 

## **11.6. DC/RF Characteristics for IEEE802.11ac (VHT 80MHz)-5GHz** 

|Specification|IEEE802.11ac(VHT80)|
|---|---|
|Mode|OFDM|
|Frequency|5210-5775MHz|
|Data rate|29.3,58.5,87.8,117,175.5,234,263.3,292.5,351,390Mbps|



## **11.6.1. High Rate Condition for IEEE802.11ac(VHT 80MHz) – 5GHz** 

|- DC Characteristics -|min.|typ.|max.|unit|
|---|---|---|---|---|
|1. DC current|||||
|1) Tx mode<br>(1024byte,20usecinterval)*12|-|-|340|mA|
|2)Rx mode|-|-|130|mA|
|- Tx Characteristics*12 -|min.|typ.|max.|unit|
|2.OutputPower|8.0|10.0|12.0|dBm|
|3.Spectrum Mask margin|||||
|1) 39MHzto41MHz(0~ -20dBr)|0|-|-|dB|
|2)41MHzto 80MHz(-20~ -28dBr)|0|-|-|dB|
|3) 80MHzto120MHz(-28~ -40dBr)|0|-|-|dB|
|4)120MHzto140MHz(-40dBr)|0|-|-|dB|
|4.Constellation Error(EVM)|-|-|-32|dB|
|5.Frequency tolerance|-20||20|ppm|
|- RxCharacteristics-|min.|typ.|max.|unit|
|6. Minimum InputLevel(PER<10%)|-|-|-51|dBm|
|put<br>7. Maximum InputLevel(PER<10%)|-30|-|-|dBm|
|8. Adjacent Channel Rejection<br> (PER<10%)|-9|-|-|dB|



*12: Defined when output power setting is 10dBm at Murata module antenna pad 

Preliminary < Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 

Preliminary Specification Number: SP-HY1MW-N 37 / 61 

## **11.6.2. Low Rate Condition for IEEE802.11ac(VHT 80MHz) – 5GHz** 

|- DC Characteristics -|min.|typ.|max.|unit|
|---|---|---|---|---|
|1. DC current|||||
|2) Tx mode<br>(1024byte,20usecinterval)*13|-|-|380|mA|
|2)Rx mode|-|-|130|mA|
|- TxCharacteristics*13-|min.|typ.|max.|unit|
|2.OutputPower|10.0|12.0|14.0|dBm|
|3.Spectrum Mask margin|||||
|1) 39MHzto41MHz(0~ -20dBr)|0|-|-|dB|
|2)41MHzto 80MHz(-20~ -28dBr)|0|-|-|dB|
|3) 80MHz to 120MHz (-28~ -40dBr)|0|-|-|dB|
|4)120MHzto140MHz(-40dBr)|0|-|-|dB|
|4.Constellation Error(EVM)|-|-|-5|dB|
|5.Frequencytolerance|-20||20|ppm|
|- Rx Characteristics -|min.|typ.|max.|unit|
|6. Minimum InputLevel(PER<10%)|-|-|-76|dBm|
|put<br>7. Maximum InputLevel(PER<10%)|-30|-|-|dBm|
|put<br>8. Adjacent Channel Rejection<br> (PER<10%)|16|-|-|dB|



*13: Defined when output power setting is 12dBm at Murata module antenna pad 

Preliminary < Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 

Preliminary Specification Number: SP-HY1MW-N 38 / 61 

## **11.7. DC/RF Characteristics for Bluetooth** 

Normal conditions : 25 deg.C, VBAT = 3.3V 

**==> picture [451 x 477] intentionally omitted <==**

**----- Start of picture text -----**<br>
|||||||||
|---|---|---|---|---|---|---|---|
|Items|Contents|
|Bluetooth specification (power class)|Version 5.0|(Class1)|
|Channel frequency|(spacing)|2402 to 2480 MHz (1MHz)|
|Transmitter|Min.|Typ.|Max.|Unit|
|Output Power|BDR|3.0|10.5|dBm|
|EDR|-1.5|6.0|dBm|
|Frequency range|2400|-|2483.5|MHz|
|20dB bandwidth|-|1|MHz|
|Modulation characteristics|
|(a) Modulation Δf1avg|140|-|175|kHz|
|(b) Modulation Δf2max|115|-|kHz|
|(c) Modulation Δf2avg|/ Δf1avg|0.8|-|-|
|Carrier Frequency Drift|
|(a) 1slot|-25|-|+25|kHz|
|(b)|3slot|/|5slot|-40|-|+40|kHz|
|kHz/50u|
|(c) Maximum drift rate|-20|-|+20|s|
|EDR Relative Power|-4|-|+1|dB|
|EDR Carrier Frequency|Stability|and Modulation Accuracy|
|(a)|ωi|-75|-|+75|kHz|
|(b)|ωi+ωo|-75|-|+75|kHz|
|(c) ωo|-10|-|+10|kHz|
|(d) RMS DEVM (|π|/4 DQPSK)|-|-|20|%|
|(e) Peak DEVM (|π|/4 DQPSK)|-|-|35|%|
|(f) 99% DEVM (|π|/4 DQPSK)|-|-|30|%|
|(g) RMS DEVM (8DPSK)|-|-|13|%|
|(h) Peak DEVM (8DPSK)|-|-|25|%|
|(i)|99% DEVM (8DPSK)|-|-|20|%|
|=|
|Spurious Emissions (BW|100kHz)|
|(a) 10MHz|≦|f<2387MHz|-|-|-36|dBm|
|(b) 2387MHz|≦|f<2400MHz|-|-|-30|dBm|
|(c) 2483.5MHz<f|≦|2496.5MHz|-|-|-47|dBm|
|(d) 2496.5MHz<f|≦|8GHz|-|-|-47|dBm|
|Receiver|Min.|Typ.|Max.|Unit|
|Sensitivity|(BER<0.1%)|-|-|-80|dBm|
|Maximum Input Level (BER<0.1%)|-20|-|-|dBm|
|EDR Sensitivity|(BER<0.007%)|
|(a)|8DPSK|-|-|-77|dBm|

**----- End of picture text -----**<br>


Preliminary < Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 

Preliminary Specification Number: SP-HY1MW-N 39 / 61 

## **11.8. DC/RF Characteristics for Bluetooth** （ **LE** ） 

|**Items**|**Contents**|**Contents**|**Contents**|**Contents**|
|---|---|---|---|---|
|Bluetoothspecification(powerclass)|Version5.0 (LE)||||
|Channel frequency (spacing)|2402to2480MHz(2MHz)||||
|Numberof RFChannel|40||||
|**Item / Condition **|**Min.**|**Typ. **|**Max.**|**Unit**|
|Center Frequency|2402|-|2480|MHz|
|ChannelSpacing|-|2|-|MHz|
|Numberof RFchannel|-|40|-|-|
|Output power|1.5|-|9.0|dBm|
|Modulation Characteristics|||||
|1)Δf1avg|225|-|275|kHz|
|2)Δf2max (at 99.9%)|185|-|-|kHz|
|3)Δf2avg/ Δf1avg|0.8|-|-|-|
|Carrier frequencyoffset and drift|||||
|1)Frequency offset|-150|-|150|kHz|
|2)Frequency drift|-|-|50|kHz|
|3)Driftrate|-|-|20|kHz|
|Receiver sensitivity (PER < 30.8%)|-|-|-70|dBm|
|Maximum input signal level(PER <30.8%)|-10|-|-|dBm|
|PER ReportIntegrity (-30dBm input)|50|-|65.4|%|



## **Note** 

The above mentioned values have been obtained according to our own measuring methods and may very depend on the circuit, in which the component is actually incorporated. Therefore, you are kindly requested to test the performance of the component actually in your set. 

Preliminary < Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 

Preliminary Specification Number: SP-HY1MW-N 40 / 61 

## **12. LAND PATTERN (TOP VIEW)** 

**==> picture [465 x 395] intentionally omitted <==**

**----- Start of picture text -----**<br>
0.7 1.0 0.575 0.25 0.25 0.30<br>0.3<br>0.5<br>0.4<br>1.0<br>0.250.3 Hi<br>0.55<br>0.5<br>0.25<br>0.65<br>= 7 w m |<br>0.275<br>o a ts<br>0.275 0.25 0.25 0.5 0.3<br>**----- End of picture text -----**<br>


- To avoid the short-circuit between the side shielding and a solder on the module land after the reflow, please locate the module land at 0.2mm away from module outline as above figure. 

Preliminary < Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 

Preliminary Specification Number: SP-HY1MW-N 41 / 61 

## **13. REFERENCE CIRCUIT** 

**==> picture [646 x 437] intentionally omitted <==**

**----- Start of picture text -----**<br>
A B C D E F G H<br>(*1) LQM18PN2R2M recommanded.<br>(*2) Strapping option of SDIO interface voltage<br>R101:Open SDIO interface voltage=1.8V<br>1 R101:10kohm SDIO interface voltage=3.3V 1<br>Strap Option (*3) Put matching component's land near the ANT terminals.<br>GPIO_7 (*4) Arrange SDIO lines with 50 ohm and put siries-R,1]<br>R101 shunt-C parts to reject the noise if needed.<br>(*2) 10k 10 to 100k ohm pull-ups are required on the four DATALL]<br>lines and the CMD line. This requirement must be metC]<br>during all operating states by using external pull-up0]<br>pull-ups. This module does not have internal pull-ups onO]<br>these lines. Please confirm the performance on your board.<br>2 2<br>L101<br>(*1)<br>2.2uH<br>C101<br>4.7uF<br>39 GND SR_PVSS 26 VBAT<br>BT_DEV_WAKE 40 BT_DEV_WAKE VIN_LDO 25<br>3 Co BT_HOST_WAKE > 41 BT_HOST_WAKE SR_PVSS 24 C102 4.7uF 3<br>— I2S_DI 42 I2S_DI VBAT_SR 23<br>43 NC VBAT_LDO Po 22<br>44 GND GND 21<br>Cc [>] BT_UART_RXD 45 BT_UART_RXD Type1MW SDIO_CLK 20 C103 4.7uF<br>CO BT_UART_TXD T 46 BT_UART_TXD GND 19 Co SDIO_CLK<br>VW ANT CTee BT_UART_RTSBT_UART_CTS > 474849 BT_UART_RTS_NBT_UART_CTS_NGND SDIO_DATA3SDIO_DATA2SDIO_DATA1 181716 CD<><> SDIO_DATA3SDIO_DATA2SDIO_DATA1 (*4)<br>50 ANT SDIO_CMD 15 SDIO_CMD<br>4 (*3) 51 GND SDIO_DATA0 14 SDIO_DATA0 4<br>| | {| | | 52 GND GND 13 < >><br>5 C104 5<br>0.1uF<br>VIO<br>A B C D E F G H<br>BT_GPIO_5 BT_GPIO_2 BT_GPIO_3 BT_GPIO_4 I2S_WS I2S_CLK I2S_DO BT_PCM_CLK BT_PCM_OUT BT_PCM_SYNC BT_PCM_IN GPIO_7 LPO_IN<br>27 17 67 06 66 65 64 63 62 61 38 37 36 35 34 33 32 31 30 29 28 27<br>GND GND GND GND GND BT_GPIO_5 BT_GPIO_2 BT_GPIO_3 BT_GPIO_4 GND I2S_WS I2S_CLK I2S_DO BT_PCM_CLK BT_PCM_OUT BT_PCM_SYNC BT_PCM_IN GPIO_7 LPO_IN GND SR_VLX SR_PVSS<br>GND GND GND GND GND NC GND GND JTAG_SEL GND GPIO_6 GPIO_0 GPIO_3 GPIO_5 GPIO_1 GPIO_4 GPIO_2 BT_REG_ON WL_REG_ON GND VIO GND<br>59 68 69 70 53 45 55 56 57 58 1 2 3 4 5 6 7 8 9 10 11 12<br>JTAG_SEL GPIO_6 GPIO_0 GPIO_3 GPIO_5 GPIO_1 GPIO_4 GPIO_2 BT_REG_ON WL_REG_ON<br>**----- End of picture text -----**<br>


Preliminary < Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 

Preliminary Specification Number: SP-HY1MW-N 42 / 61 

## **14. TAPE AND REEL PACKING** 

## (1) Dimensions of Tape (Plastic tape) 

**==> picture [465 x 574] intentionally omitted <==**

**----- Start of picture text -----**<br>
2.0±0.1<br>5!ic 4.0±0.1  1.5+0.1/-0.0 0.3±0.05<br>| i ft<br>i ~~ OOODDDOHOVON0000<br>| , |<br>v<br> 1.5±0.1 12.0±0.1 7.7±0.05<br>1.5±0.1<br>feeding direction<br>Dimensions of Reel<br>17.5<br>2±0.5<br>Φ 13±2<br>22.5 max.<br>1.75±0.1<br>7.5±0.1<br>8.3±0.05<br>16.0±0.3<br> 100)  330)<br>Φ Φ<br>( (<br>**----- End of picture text -----**<br>


## (2) Dimensions of Reel 

Preliminary < Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 

Preliminary Specification Number: SP-HY1MW-N 43 / 61 

## (3) Taping Diagrams 

[1] Feeding Hole  :    As specified in (1) 

- [2] Hole for chip   :   As specified in (1) 

**==> picture [219 x 343] intentionally omitted <==**

**----- Start of picture text -----**<br>
[3] Cover tape    :   62 um in thickness<br>[4] Base tape     :   As specified in (1)<br>[3]<br>[1]<br>[2]<br>ot [3]<br>[4]<br>Feeding Hole<br>Feeding Direction<br>Chip<br>**----- End of picture text -----**<br>


## (4) Leader and Tail tape 

**==> picture [393 x 171] intentionally omitted <==**

**----- Start of picture text -----**<br>
Tail tape<br>(No components) Components No components<br>      Leader tape<br>(Cover tape alone)<br>40 to 200 mm 160 mm min. 230 mm min.<br>**----- End of picture text -----**<br>


Feeding direction 

Preliminary < Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 

Preliminary Specification Number: SP-HY1MW-N 44 / 61 

- -The tape for chips are wound clockwise, the feeding holes to the right side as the tape is pulled toward the user. 

- -The cover tape and base tape are not adhered at no components area for 250 mm min. 

- -Tear off strength against pulling of cover tape: 5 N min. 

- -Packaging unit: 1,000 pcs/ reel 

- Material: Base tape: Plastic 

Reel  : Plastic 

Cover tape, cavity tape and reel are made the anti-static processing. 

- Peeling of force: 1.1 N max. in the direction of peeling as shown below. 

**==> picture [286 x 124] intentionally omitted <==**

**----- Start of picture text -----**<br>
1.1 N max.<br>165 to 180 °<br>Cover tape<br>/foe 2<br>j a LZ<br>a 7<br>-<br>Base tape<br>**----- End of picture text -----**<br>


## - PACKAGE (Humidity proof packing) 

**==> picture [319 x 211] intentionally omitted <==**

**----- Start of picture text -----**<br>
Label<br>表示ラべル<br>Desiccant<br>乾燥剤<br>Humidity<br>湿度<br>Indicator  インジケ－タ a<br>~<br>LIC]<br>| U<br>\ \ fA<br><> oO<br>表示ラベル Label<br>Anti-humidity  防湿梱包袋<br>Plastic Bag<br>**----- End of picture text -----**<br>


Tape and reel must be sealed with the anti-humidity plastic bag. The bag contains the desiccant and the humidity indicator. 

Preliminary < Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 

Preliminary Specification Number: SP-HY1MW-N 45 / 61 

## **15. NOTICE** 

## **15.1. Storage Conditions:** 

Please use this product within 6month after receipt. 

- The product shall be stored without opening the packing under the ambient temperature from 5 to 35deg.C and humidity from 20 to 70%RH. 

(Packing materials, in particular, may be deformed at the temperature over 40deg.C.) 

- The product left more than 6months after reception, it needs to be confirmed the solderbility before used. 

- The product shall be stored in non corrosive gas (Cl2, NH3, SO2, Nox, etc.). 

- Any excess mechanical shock including, but not limited to, sticking the packing materials by sharp object and dropping the product, shall not be applied in order not to damage the packing materials. 

This product is applicable to MSL3 (Based on JEDEC Standard J-STD-020) 

- After the packing opened, the product shall be stored at <30deg.C / <60%RH and the product shall be used within 168hours. 

- When the color of the indicator in the packing changed, the product shall be baked before soldering. 

Baking condition: 125+5/-0deg.C, 24hours, 1time 

The products shall be baked on the heat-resistant tray because the material (Base Tape, Reel Tape and Cover Tape) are not heat-resistant. 

## **15.2. Handling Conditions:** 

Be careful in handling or transporting products because excessive stress or mechanical shock may break products. 

Handle with care if products may have cracks or damages on their terminals, the characteristics of products may change. Do not touch products with bear hands that may result in poor solder ability and destroy by static electrical charge. 

## **15.3. Standard PCB Design (Land Pattern and Dimensions):** 

All the ground terminals should be connected to the ground patterns. Furthermore, the ground pattern should be provided between IN and OUT terminals. Please refer to the specifications for the standard land dimensions. 

The recommended land pattern and dimensions is as Murata's standard. The characteristics of products may vary depending on the pattern drawing method, grounding method, land dimensions, land forming method of the NC terminals and the PCB material and thickness. Therefore, be sure to verify the characteristics in the actual set. When using non-standard lands, contact Murata beforehand. 

## **15.4. Notice for Chip Placer:** 

When placing products on the PCB, products may be stressed and broken by uneven forces from a worn-out chucking locating claw or a suction nozzle. To prevent products from damages, be sure to follow the specifications for the maintenance of the chip placer being used. For the positioning of products on the PCB, be aware that mechanical chucking may damage products. 

Preliminary < Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 

Preliminary Specification Number: SP-HY1MW-N 46 / 61 

## **15.5. Soldering Conditions:** 

The recommendation conditions of soldering are as in the following figure. 

Soldering must be carried out by the above mentioned conditions to prevent products from damage. Set up the highest temperature of reflow within 260 °C.  Contact Murata before use if concerning other soldering conditions. 

## **Reflow soldering standard conditions (Example)** 

**==> picture [356 x 228] intentionally omitted <==**

**----- Start of picture text -----**<br>
Within 10s<br>250 deg.C<br>Tpeak-5deg.C<br>220 deg.C F N<br>Cooling down<br>180 deg.C Slowly<br>150 deg.C a A<br>Zo<br>Pre-heating<br>Within 120s<br>time(s)<br>Within 60s<br>**----- End of picture text -----**<br>


Please use the reflow within 3 times. 

Use rosin type flux or weakly active flux with a chlorine content of 0.2 wt % or less. 

## **15.6. Cleaning:** 

Since this Product is Moisture Sensitive, any cleaning is not recommended. If any cleaning process is done the customer is responsible for any issues or failures caused by the cleaning process. 

## **15.7. Operational Environment Conditions:** 

Products are designed to work for electronic products under normal environmental conditions (ambient temperature, humidity and pressure). Therefore, products have no problems to be used under the similar conditions to the above-mentioned. However, if products are used under the following circumstances, it may damage products and leakage of electricity and abnormal temperature may occur. 

- In an atmosphere containing corrosive gas ( Cl2, NH3, SOx, NOx etc.). 

- In an atmosphere containing combustible and volatile gases. 

- Dusty place. 

- Direct sunlight place. 

- Water splashing place. 

- Humid place where water condenses. 

- Freezing place. 

If there are possibilities for products to be used under the preceding clause, consult with Murata before actual use. 

As it might be a cause of degradation or destruction to apply static electricity to products, do not apply static electricity or excessive voltage while assembling and measuring. 

Preliminary < Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 

Preliminary Specification Number: SP-HY1MW-N 

47 / 61 

## **15.8. Input Power Capacity:** 

Products shall be used in the input power capacity as specified in this specifications. Inform Murata beforehand, in case that the components are used beyond such input power capacity range. 

Preliminary < Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 

Preliminary Specification Number: SP-HY1MW-N 

48 / 61 

## **16. PRECONDITION TO USE OUR PRODUCTS** PLEASE READ THIS NOTICE BEFORE USING OUR PRODUCTS. 

Please make sure that your product has been evaluated and confirmed from the aspect of the fitness for the specifications of our product when our product is mounted to your product. 

All the items and parameters in this product specification/datasheet/catalog have been prescribed on the premise that our product is used for the purpose, under the condition and in the environment specified in this specification. You are requested not to use our product deviating from the condition and the environment specified in this specification. 

Please note that the only warranty that we provide regarding the products is its conformance to the specifications provided herein. Accordingly, we shall not be responsible for any defects in products or equipment incorporating such products, which are caused under the conditions other than those specified in this specification. 

WE HEREBY DISCLAIMS ALL OTHER WARRANTIES REGARDING THE PRODUCTS, EXPRESS OR IMPLIED, INCLUDING WITHOUT LIMITATION ANY WARRANTY OF FITNESS FOR A PARTICULAR PURPOSE, THAT THEY ARE DEFECT-FREE, OR AGAINST INFRINGEMENT OF INTELLECTUAL PROPERTY RIGHTS. 

You agree that you will use any and all software or program code (including but not limited to hcd, firmware, nvram, and blob) we may provide or to be embedded into our product (“Software”) provided that you use the Software bundled with our product. YOU AGREE THAT THE SOFTWARE SHALL BE PROVIDED TO YOU “AS- IS” BASIS, MURATA MAKES NO REPRESENTATIONS OR WARRANTIES THAT THE SOFTWARE IS ERROR-FREE OR WILL OPERATE WITHOUT INTERRUPTION. AND MORE, MURATA MAKES NO REPRESENTATIONS OR WARRANTIES OF ANY KIND WHETHER EXPRESS OR IMPLIED WITH RESPECT TO THE SOFTWARE. MURATA EXPRESSLY DISCLAIM ANY AND ALL WARRANTIES OR CONDITIONS OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE NOR THE WARRANTY OF TITLE OR NON-INFRINGEMENT OF INTELLECTUAL PROPERTY RIGHTS. 

You shall indemnify and hold harmless us, our affiliates and our licensor from and against any and all claims, costs, expenses and liabilities (including attorney’s fees), which arise in connection with the using the Software. 

The product shall not be used in any application listed below which requires especially high reliability for the prevention of such defect as may directly cause damage to the third party's life, body or property. You acknowledge and agree that, if you use our products in such applications, we will not be responsible for any failure to meet such requirements. Furthermore, YOU AGREE TO INDEMNIFY AND DEFEND US AND OUR AFFILIATES AGAINST ALL CLAIMS, DAMAGES, COSTS, AND EXPENSES THAT MAY BE INCURRED, INCLUDING WITHOUT LIMITATION, ATTORNEY FEES AND COSTS, DUE TO THE USE OF OUR PRODUCTS AND THE SOFTWARE IN SUCH APPLICATIONS. 

- Aircraft equipment. - Aerospace equipment - Undersea equipment. 

- Power plant control equipment - Medical equipment. 

- Transportation equipment (vehicles, trains, ships, elevator, etc.). 

- Traffic signal equipment. - Disaster prevention / crime prevention equipment. -Burning / explosion control equipment 

- Application of similar complexity and/ or reliability requirements to the applications listed in the above. We expressly prohibit you from analyzing, breaking, reverse-engineering, remodeling altering, and reproducing our product.  Our product cannot be used for the product which is prohibited from being manufactured, used, and sold by the regulations and laws in the world. 

We do not warrant or represent that any license, either express or implied, is granted under any our patent right, copyright, mask work right, or our other intellectual property right relating to any combination, machine, or process in which our products or services are used. Information provided by us regarding third-party products or services does not constitute a license from us to use such products or services or a warranty or endorsement thereof. Use of such information may require a license from a third party under the patents or other intellectual property of the third party, or a license from us under our patents or other intellectual property. 

Please do not use our products, our technical information and other data provided by us for the purpose of developing of mass-destruction weapons and the purpose of military use. 

Moreover, you must comply with "foreign exchange and foreign trade law", the "U.S. export administration regulations", etc. 

Please note that we may discontinue the manufacture of our products, due to reasons such as end of supply of materials and/or components from our suppliers. 

By signing on specification sheet or approval sheet, you acknowledge that you are the legal representative for your company and that you understand and accept the validity of the contents herein. When you are not able to return the signed version of specification sheet or approval sheet within 30 days from receiving date of specification sheet or approval sheet, it shall be deemed to be your consent on the content of specification sheet or approval sheet. Customer acknowledges that engineering samples may deviate from specifications and may contain defects due to their development status. We reject any liability or product warranty for engineering samples. In particular we disclaim liability for damages caused by 

- the use of the engineering sample other than for evaluation purposes, particularly the installation or integration in the product to be sold by you, 

-deviation or lapse in function of engineering sample, 

-improper use of engineering samples. 

We disclaim any liability for consequential and incidental damages. If you can’t agree the above contents, you should inquire our sales. 

Preliminary 

< Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 

Preliminary Specification Number: SP-HY1MW-N 

49 / 61 

## APPENDIX 

Preliminary < Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 

Preliminary Specification Number: SP-HY1MW-N 50 / 61 

## **1MW Installation Manual** 

FCC ID of this product is as follows. FCC ID: VPYLBEE5HY1MW 

IC No. of this product is as follows. IC: 772C-LBEE5HY1MW 

Contents 

1. Theory of Operation-Channel List 

2. Antenna 

## **1. Theory of Operation-Channel List** 

Theory of Operation-Software Security and Channel List 

|**Frequency of operation**|**Frequency of operation**|**Frequency of operation**|**Scan**|**Ad-hoc mode**|
|---|---|---|---|---|
|2.4GHz|11b/g/n (HT20)|2412-2462MHz|Active|Yes|
||BT|2402-2480MHz|N/A|N/A|
||BLE|2402-2480MHz|N/A|N/A|
|W52|11a/n/ac ((V)HT20)|5180-5240MHz|Active|Yes|
||11n/ac ((V)HT40)|5190-5230MHz|Active|Yes|
||11ac (VHT80)|5210MHz|Active|Yes|
|W53|11a/n/ac ((V)HT20)|5260-5320MHz|Passive|No|
||11n/ac ((V)HT40)|5270-5310MHz|Passive|No|
||11ac (VHT80)|5290MHz|Passive|No|
|W56|11a/n/ac ((V)HT20)|5500-5720MHz *|Passive|No|
||11n/ac ((V)HT40)|5510-5710MHz *|Passive|No|
||11ac (VHT80)|5530-5690MHz *|Passive|No|
|W58|11a/n/ac ((V)HT20)|5745-5825MHz|Active|Yes|
||11n/ac ((V)HT40)|5755-5795MHz|Active|Yes|
||11ac (VHT80)|5775MHz|Active|Yes|



- The frequency band 5600MHz-5640MHz (11a/n/ac 20M band), 5590MHz-5630MHz (11n/ac 40M band) and 5610MHz (11ac 80M band) is restricted in ISED. 

Notes: End users cannot modify the software because F/W & driver are installed in device. 

Preliminary < Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 

Preliminary Specification Number: SP-HY1MW-N 51 / 61 

## **2. Antenna** 

■Please perform the antenna design that followed the specifications of the antenna. 

■About the signal line between an antenna and a module 

It is a 50-ohm line design. 

Fine tuning of return loss etc. can be performed using a matching network. 

However, it is required to check "Class1 change" and "Class2 change" which the authorities define then. 

The concrete contents of a check are the following three points. 

１）It is the same type as the antenna type of antenna specifications. 

２）An antenna gain is lower than a gain given in antenna specifications. 

３）The emission level is not getting worse. 

■50-ohm line(microstrip line length) 

||**Antenna**|
|---|---|
|Antenna type|Monopole pattern antenna|
|50-ohm feed line length|We test it at 0mm as a representative|



Preliminary < Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 

Preliminary Specification Number: SP-HY1MW-N 52 / 61 

## **LBEE5HY1MW User Manual for FCC** 

■Regarding FCC modular approval of LBEE5HY1MW 

## ~~Po~~ Model Name: LBEE5HY1MW 

## ~~[Eo~~ FCC ID: VPYLBEE5HY1MW 

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. 

Since this module is not sold to general end users directly, there is no user manual of module. For the details about this module, please refer to the specification sheet of module. This module should be installed in the host device according to the interface specification (installation procedure). 

● The following information must be indicated on the host device of this module. 

## ~~PT~~ Contains Transmitter Module FCC ID: VPYLBEE5HY1MW 

or 

## ~~Po~~ Contains FCC ID: VPYLBEE5HY1MW 

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. 

*If it cannot be described on the host product, it must be listed on both the host product manual and on the host product package or removable label. 

●The following statements must be described on the user manual of the host device of this module; 

## FCC CAUTION 

Changes or modifications not expressly approved by the party responsible for compliance could void the user’s authority to operate the equipment. 

Compliance with FCC requirement 15.407(c) 

Data transmission is always initiated by software, which is the passed down through the MAC, through the digital and analog baseband, and finally to the RF chip. Several special packets are initiated by the MAC. These are the only ways the digital baseband portion will turn on the RF transmitter, which it then turns off at the end of the packet. Therefore, the transmitter will be on only while one of the aforementioned packets is being transmitted. In other words, this device automatically discontinue transmission in case of either absence of information to transmit or operational failure. 

## ~~FT~~ Frequency Tolerance: ±20 ppm 

This transmitter must not be co-located or operated in conjunction with any other antenna or transmitter. 

Preliminary < Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 

Preliminary Specification Number: SP-HY1MW-N 53 / 61 

- ●When installing it in a mobile equipment. Please describe the following warning to the manual. 

This equipment complies with FCC radiation exposure limits set forth for an uncontrolled environment and meets the FCC radio frequency (RF) Exposure Guidelines. This equipment should be installed and operated keeping the radiator at least 20cm or more away from person’s body. 

- ●When installing it in a portable equipment. Please describe the following warning to the manual. 

The available scientific evidence does not show that any health problems are associated with using low power wireless devices. There is no proof, however, that these low power wireless devices are absolutely safe. Low power Wireless devices emit low levels of radio frequency energy (RF) in the microwave range while being used.  Whereas high levels of RF can produce health effects (by heating tissue), exposure of low-level RF that does not produce heating effects causes no known adverse health effects. Many studies of low-level RF exposures have not found any biological effects. Some studies have suggested that some biological effects might occur, but such findings have not been confirmed by additional research. LBEE5HY1MW has been tested and found to comply with FCC radiation exposure limits set forth for an uncontrolled environment and meets the FCC radio frequency (RF) Exposure Guidelines. 

It is necessary to take a SAR test with your set mounting this module (except to use only Bluetooth V5.0 (BDR/EDR/LE)). 

Class II permissive change application is necessary using the SAR report. Please contact Murata. 

Note) 

Portable equipment: Equipment for which the spaces between human body and antenna are used within 20cm. 

Mobile equipment: Equipment used at position in which the spaces between human body and antenna exceeded 20cm. 

Preliminary < Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 

Preliminary Specification Number: SP-HY1MW-N 54 / 61 

## **LBEE5HY1MW User Manual for ISED** 

PMN: LBEE5HY1MW HVIN: LBEE5HY1MW IC Number: 772C-LBEE5HY1MW 

Since this module is not sold to general end users directly, there is no user manual of module. For the details about this module, please refer to the specification sheet of module. 

This module should be installed in the host device according to the interface specification (installation procedure). 

- The following information must be indicated on the host device of this module. 

## Contains IC: 772C-LBEE5HY1MW 

- ●The following statements must be described on the user manual of the host device of this module; 

This device complies with Industry Canada’s applicable licence-exempt RSSs. Operation is subject to the following two conditions: 

(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. 

Le présent appareil est conforme aux CNR d’Industrie Canada applicables aux appareils radio exempts de licence. L’exploitation est autorisée aux deux conditions suivantes: 

1) l’appareil ne doit pas produire de brouillage; 

2) l’utilisateur de l’appareil doit accepter tout brouillage radioélectrique subi, même si le brouillage est susceptible d’en compromettre le fonctionnement. 

*If it is difficult to describe this statement on the host product due to the size, please describe in the User's manual. 

- ●In case of the final product which can be carried around to outdoor. 

The following indication is necessary to the final product. When the AP function is used in W52; 

At the time of a channel setting of W52, please indicate “for indoor use only”. During connecting, please show the channel number which connects. 

And please indicate that the end user may find out "for indoor use only channel". 

When the STA function is used in channel 52, 54, 58, at the time of the channel 52 or 54 or 58 setting, please indicate “for indoor use only channel”. 

During connecting, please show the channel number which connects. 

And please indicate that the end user may find out "for indoor use only channel". 

Preliminary < Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 

Preliminary Specification Number: SP-HY1MW-N 55 / 61 

If the antenna of the end product is removed, please describe the follow warning on the manual of the end product which contains this module. 

This radio transmitter (IC Number: 772C-LBEE5HY1MW) identify the device by certification number or model number if Category II) has been approved by Industry Canada 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. : 2.4GHz Monopole Gain: +0.1 dBi : 5GHz Monopole Gain: -0.4 dBi Le présent émetteur radio (IC Number: 772C-LBEE5HY1MW) a été approuvé par Industrie Canada 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. Type d’antenne : 2.4GHz Monopole Gain: +0.1 dBi : 5GHz Monopole Gain: -0.4 dBi 

●If the final product use the following frequency, please note that there is a limit. 

For indoor use only (5150-5250MHz band and channel 52, 54, 58) Pour usage intérieur seulement (5150-5250MHz band and channel 52, 54, 58) 

- ●The following statements must be described on the user manual of the host device of this module; 

Data transmission is always initiated by software, which is the passed down through the MAC, through the digital and analog baseband, and finally to the RF chip. Several special packets are initiated by the MAC. These are the only ways the digital baseband portion will turn on the RF transmitter, which it then turns off at the end of the packet. Therefore, the transmitter will be on only while one of the aforementioned packets is being transmitted. In other words, this device automatically discontinue transmission in case of either absence of information to transmit or operational failure. 

La transmission des données est toujours initiée par le logiciel, puis les données sont transmises par l'intermédiaire du MAC, par la bande de base numérique et analogique et, enfin, à la puce RF. Plusieurs paquets spéciaux sont initiés par le MAC. Ce sont les seuls moyens pour qu'une partie de la bande de base numérique active l'émetteur RF, puis désactive celui-ci à la fin du paquet. En conséquence, l'émetteur reste uniquement activé lors de la transmission d'un des paquets susmentionnés. En d'autres termes, ce dispositif interrompt automatiquement toute transmission en cas d'absence d'information à transmettre ou de défaillance. 

*If it is difficult to describe this statement on the host product due to the size, please describe in the User's manual. 

- ●When installing it in a mobile equipment. Please describe the following warning to the manual. 

This equipment complies with IC radiation exposure limits set forth for an uncontrolled environment and meets RSS-102 of the IC radio frequency (RF) Exposure rules. This equipment should be installed and operated keeping the radiator at least 20cm or more away from person’s body. 

Cet équipement est conforme aux limites d’exposition aux rayonnements énoncées pour un environnement non contrôlé et respecte les règles d’exposition aux fréquences radioélectriques (RF) CNR-102 de l’IC. Cet équipement doit être installé et utilisé en gardant une distance de 20 cm ou plus entre le radiateur et le corps humain. 

Preliminary < Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 

Preliminary Specification Number: SP-HY1MW-N 56 / 61 

## ●Antenna 

Please refer to the Antenna Specification or please contact Murata for the detail designation of how to design the Antenna trace. 

Model name  LBEE5HY1MW 

- Antenna Model Name :     Type1MW-Antenna 

- Antenna type :     Monopole pattern antenna 

- Antenna manufacture :     Murata Manufacturing Co.,Ltd. 

- • Antenna gain :     +0.1 dBi @2442MHz 

   - 0.4 dBi @5150MHz 

- Frequency :     2400-2483.5MHz, 5150-5850MHz 

Preliminary < Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 

Preliminary Specification Number: SP-HY1MW-N 57 / 61 

|**Tuning**<br>**for**<br>**2GHz**|**Tuning for**<br>**5GHz-1**|**Matching circuit**|**Attenuator  circuit**|
|---|---|---|---|
|0ohm|0ohm|Shunt 1: None, Series 1: 1.4nH, Shunt 2:<br>None,<br>Shunt 3: None, Series 2: 0ohm, Shunt 4:<br>None|Shunt 1: None, Series 1: 1.4nH, Shunt 2:<br>Shunt 3: None, Series 2: 0ohm, Shunt 4:<br>Shunt 5: 270ohm, Series 3: 20ohm, Shunt 6:<br>270ohm|



*1005 size component is applied to attenuator circuit 

Preliminary < Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 

Preliminary Specification Number: SP-HY1MW-N 58 / 61 

**==> picture [558 x 184] intentionally omitted <==**

**----- Start of picture text -----**<br>
50m<br>'— t<br>7.5mm I<br>| <> |<br>5.5m<br>10m<br>3.9m<br>0.5m<br>**----- End of picture text -----**<br>


## Antenna trace width 0.5mm 

Preliminary < Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 

Preliminary Specification Number: SP-HY1MW-N 59 / 61 

|~~Ce~~|~~Ce~~|~~Ce~~|~~Ce~~|~~Ce~~|~~Ce~~|~~Ce~~|~~Ce~~|
|---|---|---|---|---|---|---|---|
|POLARIZATION<br>LINEAR<br>~~EE~~||hor.<br>ver.<br>XY-plane<br>~~EE~~||YZ-plane<br>~~EE~~||ZX-pl<br>~~EE~~|ver.<br>lane<br>Total<br>Ef f iciency<br>~~EE~~|
||||ver.<br>~~EE~~|ver.<br>hor.<br>~~EE~~|hor.<br>ver.<br>~~EE~~|hor.<br>~~EE~~||
|2400 MHz<br>~~a~~|MAX.<br>AVE.<br>~~ie~~|-3.8<br>-8.1<br>~~eee~~|-4.0<br>~~eee~~|-4.0<br>-0.1<br>~~eeeeee~~|-18.5<br>~~eeeees~~|-6.0<br>~~(erescores~~|-1.2<br>-3.6<br>-4.3<br>~~cores~~|
||||-7.7<br>~~eee~~|7.7<br>-5.1<br>~~eeeeee~~|-24.0<br>~~eeeees~~|-13.3<br>~~(erescores~~||
|**2442 MHz**<br>~~a~~<br>~~FE~~|**MAX.**<br>**AVE.**<br>~~ie ~~<br>~~FE~~|**MAX.**<br>**-3.6**<br>**-7.9**<br> ~~eee ~~<br>~~FE~~|**-3.7**<br> ~~eee~~<br>~~FE~~|**-3.7**<br>**0.1**<br>~~eee eee~~<br>~~FE~~|**-17.0**<br>~~eee ees ~~<br>~~FE~~|**-5.5**<br> ~~(eres cores~~<br>~~FE~~|**-0.8**<br>**-3.3**<br>**-3.9**<br>~~cores~~<br>~~FE~~<br>~~et~~|
||||**-7.3**<br>~~FE~~|**-7.3**<br>**-4.7**<br>~~FE~~|**-22.9**<br>~~FE~~<br>~~et~~|**-13.0**<br>~~FE~~<br>~~etet~~||
|2484 MHz<br>~~eee~~|MAX.<br>AVE.<br>~~eee~~|-3.3<br>-7.8<br>~~eee~~|-3.6<br>~~eee~~|3.6<br>0.0<br>~~eee~~|-16.5<br>~~eee~~<br>~~et~~|-5.5<br>~~eee~~<br>~~etet~~|-0.6<br>-3.1<br>-3.8<br>~~eee~~<br>~~et~~|
||||-7.1<br>~~eee~~|-7.1<br>-4.6<br>~~eee~~|-22.8<br>~~eee~~<br>~~et~~|-12.8<br>~~eee~~<br>~~etet~~||



**==> picture [381 x 165] intentionally omitted <==**

**----- Start of picture text -----**<br>
XY plane [dBi] YZ plane [dBi] ZX plane [dBi]<br>0 0 0<br>5 5 5<br>0 0 0<br>-5 -5 -5<br>-10 -10 -10<br>-15 -15 -15<br>-20 -20 -20<br>-25 -25 -25<br>270 -30 90 270 -30 90 270 -30 90<br>©<br>180 horizontal 180 horizontal 180 horizontal<br>vertical vertical vertical<br>HOR. VER. HOR. VER. HOR. VER.<br>MAX -3.6 -3.7 MAX 0.1 -17.0 MAX -5.5 -0.8<br>AVE -7.9 -7.3 AVE -4.7 -22.9 AVE -13.0 -3.3<br>**----- End of picture text -----**<br>


Preliminary < Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 

Preliminary Specification Number: SP-HY1MW-N 60 / 61 

|~~Po~~|~~Po~~|~~Po~~|~~Po~~|~~Po~~|~~Po~~|~~Po~~|~~Po~~|~~Po~~|
|---|---|---|---|---|---|---|---|---|
|POLARIZATION<br>LINEAR<br>~~EE~~||XY-plane<br>~~EE~~||YZ-plane<br>~~EE~~||ZX-plane<br>~~EE~~||Total<br>Ef f iciency<br>~~EE~~|
|||hor.<br>~~EE~~|ver.<br>~~EE~~|hor.<br>~~EE~~|ver.<br>~~EE~~|hor.<br>~~EE~~|ver.<br>~~EE~~||
|5150 MHz|MAX.<br>~~a~~<br>~~-~~|-3.0<br>~~ee~~<br>~~pee~~|-6.1<br>~~ee~~<br>~~pee~~|-0.4<br>~~ee~~<br>~~pee~~|-10.3<br>~~ee~~<br>~~pee~~|-1.6<br>~~ee~~<br>~~ee~~|-1.2<br>~~ee~~<br>~~ee~~|-5.6<br>~~eee~~|
||AVE.<br>~~a~~<br>~~-~~|-8.1<br>~~ee~~<br>~~pee~~|-9.6<br>~~ee ~~<br>~~pee~~|-6.1<br> ~~ee~~<br>~~pee~~|-18.3<br>~~ee~~<br>~~pee~~|-8.9<br>~~ee ~~<br>~~ee~~|-8.6<br> ~~ee~~<br>~~ee~~||
|**5500 MHz**|**MAX.**<br>~~-~~|**-2.4**<br>~~pee~~|**-4.9**<br>~~pee~~|**-0.6**<br>~~pee~~|**-10.8**<br>~~pee ~~|**-0.7**<br> ~~ee~~|**-2.9**<br>~~ee~~|**-5.2**<br>~~eee~~|
||**AVE.**|**-7.6**|**-8.6**|**-5.7**|**-19.0**|**-9.0**|**-10.0**||
|5850 MHz|MAX.|-1.8|-4.0|-1.3|-10.7|-0.9|-5.1|-5.4|
||AVE.<br>~~a~~|-7.6|-8.0|-6.2|-18.4|-8.6|-11.8||



Preliminary < Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 

Preliminary Specification Number: SP-HY1MW-N 61 / 61 

LBEE5HY1MW User Manual for Japan 

`■` Regarding Japan Certificate of Construction Type of LBEE5HY1MW 

|R 001-P01220|R 001-P01220|
|---|---|
||<br>W52/W53は屋内使用限定|



This module is a product that has been authorized construction design certification based on the following Certificate of Construction Type. [(Warning) In the 5 GHz frequency band, three types of 5.2 GHz / 5.3 GHz / 5.6 GHz bands (W52 / W53 / W56) can be used. 

Outdoor use of the 5.2 GHz / 5.3 GHz band wireless LAN (W52 / W53) is prohibited by the Certificate of Construction Type. ] 

W53 / W56 for STA function only. 

`●` It is recommended to describe the following contents in the end product or user manual. 

`・` [This product has built-in specified radio equipment which received construction design certification (certification number: 001-P01220) based on the Certificate of Construction.] 

`・` [The W52 / W53 in the 5 GHz band is prohibited from outdoor use under the Japanese Certificate of Construction Type.] 

Preliminary < Specification may be changed by Murata without notice > Murata Manufacturing Co., Ltd. 



## Links

- [View this product on Novapart](https://novapart.co/products/LBEE5HY1MW-230/wifibt-rf-module-radio-certified)
- [Request a quote for this part](https://novapart.co/quote/)
- [Supplier page](https://es.farnell.com/murata/lbee5hy1mw-230/wifi-bt-rf-module-radio-certified/dp/3228623)
---

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