LBWA1UZ1GC-958 - MURATA MANUFACTURING

Preliminary Specification Number : SP-UZ1GC-S

Preliminary

< Specification may be changed by Murata without notice >

Murata Manufacturing Co., Ltd.

W-LAN Module Data Sheet

Cypress WLAN Chipset CYW43907

for 802.11a/b/g/n

Tentative P/N : LBWA1UZ1GC-TEMP

This Datasheet is preliminary version, and subject

to change without notice.

Preliminary Specification Number : SP-UZ1GC-S

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Preliminary

< Specification may be changed by Murata without notice >

Murata Manufacturing Co., Ltd.

The revision history of the product specification

Issued

Date

Revision

Code

Revision

Page

Changed Items

Change Reason

Apr.17, 2015

First Issue

Apr.30, 2015

A

P5,6,7

P.4

P.17

Pin name #7, #78 and #113

Dimensions

Land pattern

Correction

Jun.12, 2015

B

P.4

P.5

P.9

P.17

Dimensions

Terminal Configurations

Absolute Maximum Rating,

Operating Condition

Land pattern

Follow JEDEC Pin

Numbering

Correction

Addition

Sep.17, 2015

C

P.4

Dimensions

Added solder

bump

Oct.14, 2015

D

P.4

P.18

Dimensions

Land pattern

Pin numbering

Correction of

Rev.C

Addition

Dec.25, 2015

E

P.4

P.9

P.11

P.13,14,15,16,17

P.22

Dimensions

Power Supply Segments

Absolute Maximum Rating

Operating Condition

RF Characteristics

Tape and Reel Packing

Addition

Correction

Update

Addition

Feb.24, 2016

F

P.3

P.10

P.12,13,14,15,16,17

Dimensions

Certification Information

Operating Condition

RF Characteristics

Correction

Update

Mar.8.2016

G

P5

P6

P13

P14~19

P21

structure

pin layout

DC characteristic

VBAT condition

Reference circuit

Addition

Update

Addition

Apr.1.2016

H

P21

Reference circuit

Improved

Jul.4.2016

I

P11

7. Operating Condition

Update

Nov.25.2016

J

P3

4.Certification information

Update

Dec.7.2016

K

P20

12. Land pattern (Top View)

Correction

Dec. 14. 2016

L

P28

APPENDIX

Addition

Feb. 7. 2017

M

P21

Reference circuit

Correction

Mar.3.2017

O

Cover,

P3, P9, P12

Changed IC Part Number

Oct.30.2017

P

P21

Reference circuit

Update

Sep.24.2018

Q

P4

Certification information

Updated

Dec.28.2018

R

P21

P26

Reference Circuit

Soldering conditions

Cleaning

Updated

Jan.23.2020

S

P4

Certification Information

Added Japan

certification

Updated Country

Code

Preliminary Specification Number : SP-UZ1GC-S

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Preliminary

< Specification may be changed by Murata without notice >

Murata Manufacturing Co., Ltd.

TABLE OF CONTENTS

1. Scope ..................................................................................................................................................... 3

2. Part Number ........................................................................................................................................... 3

3. Block Diagram ........................................................................................................................................ 3

4. Certification Information ......................................................................................................................... 4

4.1. Radio Certification ........................................................................................................................... 4

5. Dimensions, Marking and Terminal Configurations ............................................................................... 5

5.1. Dimensions ...................................................................................................................................... 5

5.2. Terminal Configurations ................................................................................................................... 7

6. Absolute Maximum Rating ................................................................................................................... 12

7. Operating Condition ............................................................................................................................. 12

8. External 32.768 kHz Low-Power Oscillator.......................................................................................... 12

9. Power Up Sequence ............................................................................................................................ 13

10. Digital I/O Requirements .................................................................................................................... 14

11. RF Characteristics .............................................................................................................................. 15

11.1. DC/RF Characteristics for IEEE802.11b ...................................................................................... 15

11.2. DC/RF Characteristics for IEEE802.11g ...................................................................................... 16

11.3. DC/RF Characteristics for IEEE802.11n ...................................................................................... 17

11.4. DC/RF Characteristics for IEEE802.11a - 5GHz ......................................................................... 18

11.5. DC/RF Characteristics for IEEE802.11n - 5GHz ......................................................................... 19

12. Land pattern (Top View) ..................................................................................................................... 21

13. Reference Circuit ................................................................................................................................ 22

14. Tape and Reel Packing ...................................................................................................................... 23

15. NOTICE .............................................................................................................................................. 26

15.1. Storage Conditions: ..................................................................................................................... 26

15.2. Handling Conditions: ................................................................................................................... 26

15.3. Standard PCB Design (Land Pattern and Dimensions): ............................................................. 26

15.4. Notice for Chip Placer: ................................................................................................................. 26

15.5. Soldering Conditions: .................................................................................................................. 27

15.6. Cleaning: ...................................................................................................................................... 27

15.7. Operational Environment Conditions: ......................................................................................... 27

15.8. Input Power Capacity: ................................................................................................................. 27

16. PRECONDITION TO USE OUR PRODUCTS ................................................................................... 28

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 Number : SP-UZ1GC-S

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Preliminary

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Murata Manufacturing Co., Ltd.

1. Scope

This specification is applied to the IEEE802.11a/b/g/n W-LAN complete module (WLAN smart

module).

- IC : Cypress/CYW43907

- Reference Clock : 37.4MHz reference clock is embedded.

- RoHS : This module is compliant with the RoHS directive.

2. Part Number

Sample Part Number

LBWA1UZ1GC-TEMP

Product Part Number

LBWA1UZ1GC-958

3. Block Diagram

i. 2.2µH Inductor (Murata, LQM2MPN2R2NG0) is needed to stabilize the output of internal switching

regulator. It connects SR_VLX (Output of the internal switching regulator) to VDD1_35 (Input of internal

1.2V LDO)

ii. 0 Ω Resistor (100mW, 0603 Min case Size) is needed to connect VDD_3V3_LDO to (Output of

Internal 3.3V LDO) to VDD_3V3_IN (Radio Supply of CYW43907)

Sleep Clock

VDD_VBAT

USB_VDD_3V3

VDDIO

VDDIO_AUDIO

VDDIO_RMII

VDDIO_SD

SPI

GPIO

UART

I2S

MII/RMII

I2C

USB

Ref Clock

37.4MHz

CYW43907

5G Tx

5G Rx

2.4G Tx

2.4G Rx

DIPLEX

VDD_3V3_LDO

VDD_3V3_IN

Matching

Circuit

VDD1_35

SR_VLX1_35

0

2.2uH

Preliminary Specification Number : SP-UZ1GC-S

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Preliminary

< Specification may be changed by Murata without notice >

Murata Manufacturing Co., Ltd.

4. Certification Information

4.1. Radio Certification

USA

FCC ID : VPYLB1GC

Country Code: US/0

*Please follow user/installation manual of Appendix

Canada

IC ID : 772C-LB1GC

Country Code: CA/0

*Please follow user/installation manual of Appendix

Europe

EN300328/301893 v2.1.1 conducted test report is prepared.

Country Code: DE/0

Japan

Japanese type certification is prepared.

001-P00975

Country Code: JP/0

*Please follow manual of Appendix

The each country code are defined by Murata Blob/Nvram file.

Please ask your contact person from Murata.

Preliminary Specification Number : SP-UZ1GC-S

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Preliminary

< Specification may be changed by Murata without notice >

Murata Manufacturing Co., Ltd.

5. Dimensions, Marking and Terminal Configurations

5.1. Dimensions

L

W

T

T1

（D1）

（D5）

(D9)

（D2）

(D10)

(D11) (D12)

(E1)(E6)

(E7) (E12)

(C15)

(C16)(C7)

(C8)

(A16）

（A29）

（D3）（D4）

（A45）

（A58）

（D6）

（B11）

（B19）

（D7）（D8）

（B30）

(B38）

b1

a1e1

b2

c1

e2

a2

e3

b3 c2 e4 a3 e5e6 a4 e7 c3

e12

c5

e11

a5

e10

e9

c4

e8

（A1）（A15）

（A30）（A44）

（B1）（B10）

（B20）（B29）

(C1)

(C6)

(C9) (C14)

< Side View >

< Bottom View >

< Top View >

xxxxxxxxx

(A)

(C)

(B)

Model:

Type1GC

(D)

Preliminary Specification Number : SP-UZ1GC-S

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Preliminary

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Murata Manufacturing Co., Ltd.

Mark

Dimensions

Mark

Dimensions

Mark

Dimensions

L

10.0 +/- 0.2

W

10.0 +/- 0.2

T

1.20 max.

T1

0.07 typ.

a1

0.25 +/- 0.1

a2

0.25 +/- 0.1

a3

0.25 +/- 0.1

a4

0.25 +/- 0.1

a5

0.25 +/- 0.1

b1

0.395 +/- 0.2

b2

0.293 +/- 0.2

b3

0.313 +/- 0.2

c1

0.55+/- 0.1

c2

0.55+/- 0.1

c3

0.55+/- 0.1

c4

0.55+/- 0.1

c5

0.55+/- 0.1

e1

0.31 +/- 0.1

e2

0.392 +/- 0.1

e3

0.31 +/- 0.1

e4

0.932 +/- 0.1

e5

0.31 +/- 0.1

e6

0.25 +/- 0.1

e7

0.882 +/- 0.1

e8

0.858 +/- 0.1

e9

0.384 +/- 0.1

e10

0.31 +/- 0.1

e11

0.45 +/- 0.1

e12

0.974+/- 0.1

(unit : mm)

Marking

Meaning

(A)

Pin 1 Marking

(B)

Murata Logo

(C)

Inspection Number

(D)

Module Type

Structure

Preliminary Specification Number : SP-UZ1GC-S

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Preliminary

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Murata Manufacturing Co., Ltd.

5.2. Terminal Configurations

Pin Layout

（D1）（A1）

（A58）

（D5）（B1）

(B38）

（B30）

（A45）

（D8）（B29）

(D12)(C14)

(C15)

(C16)

(D9) (C1)

(E1)

(E12)

(D11)(C9)

(E7)

(E6)

(C6)(D10)

（B11）

（D6）（B10）

（B20）（D7）

（B19）

（D2）（A15）

(A16）

（A29）

（D4）（A44）（A30）（D3）

(C8)

(C7)

Pin # Termin al Name Pin # Termin al Name Pin # Terminal Name

D1 SFLASH_MISO_3 A44 SR_VLX1_35 B28 GPIO_13_SDIO_MODE

A1 SFLASH_CLK D4 GND B29 GND

A2 SFLASH_MOSI_0 A45 GPIO_10 D8 GPIO_14

A3 SFLASH_MISO_2 A46 I2C_0_SDA B30 SPI_1_MOSI

A4 SFLASH_CSN A47 I2C_0_SCL B31 SPI_1_MISO

A5 GND A48 I2S0_SD_OUT B32 SPI_1_CLK

A6 RF_ANT0 A49 I2S1_WS_LRCLK B33 SPI_1_CS

A7 GND A50 I2S0_SD_IN B34 GND

A8 GPIO_7_WCPU_BOOT_MODE A51 I2S0_WS_LRCLK B35 I2S0_SCK_BCLK

A9 SPI_0_MOSI A52 UART0_RXD_IN B36 I2S0_MCK

A10 SPI_0_CS A53 UART0_RTS_OUT B37 I2S1_SD_OUT

A11 SPI_0_CLK A54 UART0_CTS_IN B38 I2S1_SD_IN

A12 SPI_0_MISO A55 UART0_TXD_OUT D9 GND

A13 MII_RMII_TXEN A56 VDDIO C1 I2C_1_SDA

A14 MII_RXDV_RMII_CRS_DV A57 VDDIO_RMII C2 GPIO_6_JTAG_TRST_L

A15 MII_RMII_MDC A58 SFLASH_MISO_1 C3 GPIO_4_JTAG_TDI

D2 MII_RMII_TXD0 D5 I2S1_MCK C4 GPIO_11_ACPU_BOOT_MODE

A16 MII_RMII_RXD0 B1 I2S1_SCK_BCLK C5 HIB_REG_ON_IN

A17 MII_TXC_RMII_REF_CLK B2 I2C_1_SCL C6 HIB_LPO_SEL

A18 MII_RMII_RXD1 B3 GND D10 GND

A19 MII_RMII_TXD1 B4 GPIO_5_JTAG_TDO C7 RF_SW_CTRL_9_HIB_LPO_SEL_UART2_TX

A20 MII_RMII_MDIO B5 MII_RXD2 C8 GND

A21 ANT1_DIV_RF_SW_CTRL_5_DAP_CLK_SEL B6 MII_RXD3 D11 GND

A22 VDD_3V3_IN B7 MII_COL C9 PWM_1

A23 HIB_XTAL_IN B8 MII_RXC C10 PWM_0

A24 HIB_XTAL_OUT B9 MII_CRS C11 GPIO_0

A25 ANT0_DIV_RF_SW_CTRL_4 B10 MII_TXD2 C12 VDDIO_SD

A26 PWM_3 D6 MII_TXD3 C13 GPIO_2_JTAG_TCK

A27 PWM_2 B11 GND C14 GPIO_12

A28 USB2_DN B12 RESET_N D12 GND

A29 USB2_DP B13 HIB_WAKE C15 GPIO_9_USB_SEL

D3 GND B14 RF_SW_CTRL_8_UART2_RX C16 GPIO_8_TAP_SEL

A30 GPIO_1_GSPI_MODE B15

RF_SW_CTRL_7_RSRC_INIT_

MODE_UART1_TX_OUT

E1 GND

A31 PWM_4 B16 RF_GPAIO_OUT E2 GND

A32 USB2_HOST_DEV_SEL B17 JTAG_SEL E3 GND

A33 GND B18 RF_SW_CTRL_6_UART1_RX_IN E4 GND

A34 USB_VDD_3V3 B19 GPIO_16 E5 GND

A35 VDD_3V3_IN_2 D7 PWM_5 E6 GND

A36 GND B20 GPIO_3_JTAG_TMS E7 GND

A37 VDDIO_AUDIO B21 SDIO_DATA2 E8 GND

A38 GND B22 SDIO_DATA1 E9 GND

A39 VDD_3V3_LDO B23 SDIO_DATA0 E10 GND

A40 GND B24 SDIO_CMD E11 GND

A41 VDD1_35 B25 SDIO_CLK E12 GND

A42 GND B26 GPIO_15

A43 VDD_VBAT B27 SDIO_DATA3

< Top View >

Preliminary Specification Number : SP-UZ1GC-S

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Preliminary

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Murata Manufacturing Co., Ltd.

SN

Pin#

Name

Type

Description

1

D1

SFLASH_MISO_3

I/O

Flash data bit 4

2

A1

SFLASH_CLK

O

Flash clock

3

A2

SFLASH_MOSI_0

I/O

Flash data bit 1

4

A3

SFLASH_MISO_2

I/O

Flash data bit 3

5

A4

SFLASH_CSN

O

Flash slave select

6

A5

GND

7

A6

RF_ANT0

I/O

Antenna port 0

8

A7

GND

9

A8

GPIO_7_WCPU_BOOT_MODE

I/O

Boot from SoC SROM or SOC SRAM

10

A9

SPI_0_MOSI

O

SPI data master out

11

A10

SPI_0_CS

O

SPI slave select

12

A11

SPI_0_CLK

O

SPI clock

13

A12

SPI_0_MISO

I

SPI data master in

14

A13

MII_RMII_TXEN

O

MII/RMII Transmit Enable

15

A14

MII_RXDV_RMII_CRS_DV

I

Receive Data Valid

16

A15

MII_RMII_MDC

O

Management Data Clock

17

D2

MII_RMII_TXD0

O

MII/RMII Transmit Data Output

18

A16

MII_RMII_RXD0

I

MII/RMII Receive Data Input

19

A17

MII_TXC_RMII_REF_CLK

I

Transmit Clock

20

A18

MII_RMII_RXD1

I

MII/RMII Receive Data Input

21

A19

MII_RMII_TXD1

O

MII/RMII Transmit Data Output

22

A20

MII_RMII_MDIO

I/O

Management Data I/O

23

A21

ANT1_DIV_RF_SW_CTRL_5_D

AP_CLK_SEL

O

ANT1 Diversity RF switch control

24

A22

VDD_3V3_IN

PWR

3.3V input

25

A23

HIB_XTAL_IN

I

XTAL input for hibernation block

26

A24

HIB_XTAL_OUT

O

XTAL output for hibernation block

27

A25

ANT0_DIV_RF_SW_CTRL_4

O

ANT0 Diversity RF switch control

28

A26

PWM_3

O

Pulse width modulation bit 3

29

A27

PWM_2

O

Pulse width modulation bit 2

30

A28

USB2_DN

I/O

USB Data

31

A29

USB2_DP

I/O

USB Data

32

D3

GND

33

A30

GPIO_1_GSPI_MODE

I/O

Enable gSPI interface

34

A31

PWM_4

O

Pulse width modulation bit 4

35

A32

USB2_HOST_DEV_SEL

I

USB HOST/DEV select

36

A33

GND

37

A34

USB_VDD_3V3

PWR

3.3V supply for USB

38

A35

VDD_3V3_IN_2

PWR

3.3V input

39

A36

GND

40

A37

VDDIO_AUDIO

PWR

I/O supply for audio

41

A38

GND

42

A39

VDD_3V3_LDO

PWR

3.3V output of internal LDO

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Murata Manufacturing Co., Ltd.

43

A40

GND

44

A41

VDD1_35

PWR

Input to internal PMU LDO

45

A42

GND

46

A43

VDD_VBAT

PWR

VBAT input

47

A44

SR_VLX1_35

PWR

PMU CBUCK Switching Regulator Out

48

D4

GND

49

A45

GPIO_10

I/O

Programmable GPIO pin

50

A46

I2C_0_SDA

I/O

BSC serial data

51

A47

I2C_0_SCL

O

BSC master clock

52

A48

I2S0_SD_OUT

O

I2S data output

53

A49

I2S1_WS_LRCLK

I/O

LR clock

54

A50

I2S0_SD_IN

I

I2S data input

55

A51

I2S0_WS_LRCLK

I/O

LR clock

56

A52

UART0_RXD_IN

I

UART serial input

57

A53

UART0_RTS_OUT

O

UART request-to-send

58

A54

UART0_CTS_IN

I

UART clear-to-send

59

A55

UART0_TXD_OUT

O

UART serial output

60

A56

VDDIO

PWR

Power I/O supply

61

A57

VDDIO_RMII

PWR

I/O supply for RMII

62

A58

SFLASH_MISO_1

I/O

Flash data bit 2

63

D5

I2S1_MCK

I/O

I2S Master Clock

64

B1

I2S1_SCK_BCLK

I/O

S clock

65

B2

I2C_1_SCL

O

BSC master clock

66

B3

GND

67

B4

GPIO_5_JTAG_TDO

I/O

JTAG/ Programmable GPIO pin

68

B5

MII_RXD2

I

MII Receive Data Input

69

B6

MII_RXD3

I

MII Receive Data Input

70

B7

MII_COL

I

Collision Detect

71

B8

MII_RXC

I

MII Receive Clock

72

B9

MII_CRS

I

MII carrier Sense

73

B10

MII_TXD2

O

MII Transmit Data Output

74

D6

MII_TXD3

O

MII Transmit Data Output

75

B11

GND

76

B12

RESET_N

I

Reset

77

B13

HIB_WAKE

I

Wake up chip from hibernation mode

78

B14

RF_SW_CTRL_8_UART2_RX

I/O

RF switch control/UART_RX

79

B15

RF_SW_CTRL_7_RSRC_INIT_

MODE_UART1_TX_OUT

I/O

RF switch control/UART_TX

80

B16

RF_GPAIO_OUT

I/O

Analog GPIO

81

B17

JTAG_SEL

I

JTAG enable

82

B18

RF_SW_CTRL_6_UART1_RX_I

N

I

RF switch control/UART_RX

83

B19

GPIO_16

I/O

Programmable GPIO pin

84

D7

PWM_5

O

Pulse width modulation bit 5

85

B20

GPIO_3_JTAG_TMS

I/O

JTAG/ Programmable GPIO pin

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Murata Manufacturing Co., Ltd.

86

B21

SDIO_DATA2

I/O

SDIO data line 2

87

B22

SDIO_DATA1

I/O

SDIO data line 1

88

B23

SDIO_DATA0

I/O

SDIO data line 0

89

B24

SDIO_CMD

I/O

SDIO command line

90

B25

SDIO_CLK

I/O

SDIO clock

91

B26

GPIO_15

I/O

Programmable GPIO pin

92

B27

SDIO_DATA3

I/O

SDIO data line 3

93

B28

GPIO_13_SDIO_MODE

I/O

Programmable GPIO pin/SDIO mode

select

94

B29

GND

95

D8

GPIO_14

I/O

Programmable GPIO pin

96

B30

SPI_1_MOSI

O

SPI data master out

97

B31

SPI_1_MISO

I

SPI data master in

98

B32

SPI_1_CLK

O

SPI clock

99

B33

SPI_1_CS

O

SPI slave select

100

B34

GND

101

B35

I2S0_SCK_BCLK

I/O

Bit clock

102

B36

I2S0_MCK

I/O

M clock

103

B37

I2S1_SD_OUT

O

I2S data output

104

B38

I2S1_SD_IN

I

I2S data input

105

D9

GND

106

C1

I2C_1_SDA

I/O

BSC serial data

107

C2

GPIO_6_JTAG_TRST_L

I/O

Programmable GPIO pin/JTAG

108

C3

GPIO_4_JTAG_TDI

I/O

Programmable GPIO pin/JTAG

109

C4

GPIO_11_ACPU_BOOT_MODE

I/O

Boot from tightly coupled memory (TCM)

ROM or TCM RAM

110

C5

HIB_REG_ON_IN

I

Used by the hibernation block to power up

or power down the internal CYW43907

regulators

111

C6

HIB_LPO_SEL

I

Select precise or coarse 32 kHz clock

112

D10

GND

113

C7

RF_SW_CTRL_9_HIB_LPO_SE

L_UART2_TX

I/O

RF switch control/UART_TX

114

C8

GND

115

D11

GND

116

C9

PWM_1

O

Pulse width modulation bit 1

117

C10

PWM_0

O

Pulse width modulation bit 0

118

C11

GPIO_0

I/O

Programmable GPIO pin

119

C12

VDDIO_SD

PWR

I/O supply for SDIO

120

C13

GPIO_2_JTAG_TCK

I/O

Programmable GPIO/JTAG

121

C14

GPIO_12

I/O

Programmable GPIO pin

122

D12

GND

123

C15

GPIO_9_USB_SEL

I/O

Select USB Mode

124

C16

GPIO_8_TAP_SEL

I/O

Programmable GPIO/ JTAG strap

125

E1

GND

126

E2

GND

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Murata Manufacturing Co., Ltd.

127

E3

GND

128

E4

GND

129

E5

GND

130

E6

GND

131

E7

GND

132

E8

GND

133

E9

GND

134

E10

GND

135

E11

GND

136

E12

GND

Power Supply Segments

VDDIO

GPIO_0, GPIO_1_GSPI_MODE, GPIO_2_JTAG_TCK, GPIO_3_JTAG_TMS,

GPIO_4_JTAG_TDI, GPIO_5_JTAG_TDO, GPIO_6_JTAG_TRST_L,

GPIO_7_WCPU_BOOT_MODE, GPIO_8_TAP_SEL, GPIO_9_USB_HSIC_SEL,

GPIO_10, GPIO_11_ACPU_BOOT_MODE, GPIO_12, GPIO_13_SDIO_MODE,

GPIO_14, GPIO_15_HOST_VTRIM, GPIO_16, I2C_0_SCL, I2C_0_SDA,

I2C_1_SCL, I2C_1_SDA, JTAG_SEL, PWM_0, PWM_1, PWM_2, PWM_3, PWM_4,

PWM_5, SFLASH_CLK, SFLASH_CSN, SFLASH_MOSI_0, SFLASH_MISO_1,

SFLASH_MISO_2, SFLASH_MISO_3, SPI_0_CLK, SPI_0_CS, SPI_0_MISO,

SPI_0_MOSI, SPI_1_CLK, SPI_1_CS, SPI_1_MISO, SPI_1_MOSI, RESET_N,

UART0_CTS_IN, UART0_RTS_OUT, UART0_RXD_IN, UART0_TXD_OUT,

USB2_HOST_DEV_SEL

VDDIO_AUDIO

I2S0_WS_LRCLK, I2S1_WS_LRCLK, I2S0_MCK, I2S1_MCK, I2S0_SCK_BCLK,

I2S1_SCK_BCLK, I2S0_SD_IN, I2S1_SD_IN, I2S0_SD_OUT, I2S1_SD_OUT

VDD_3V3_IN_2

TX_5G_RF_SW_CTRL_2, RX_5G_RF_SW_CTRL_3, ANT0_DIV_RF_SW_CTRL_4,

ANT1_DIV_RF_SW_CTRL_5_DAP_CLK_SEL, RF_SW_CTRL_6_UART1_RX_IN,

RF_SW_CTRL_7_RSRC_INIT_MODE_UART1_TX_OUT,

RF_SW_CTRL_8_UART2_RX, RF_SW_CTRL_9_HIB_LPO_SEL_UART2_TX

VDDIO_RMII

MII_COL, MII_CRS, MII_RXC, MII_RMII_RXD0, MII_RMII_RXD1, MII_RXD2,

MII_RXD3, MII_RXDV_RMII_CRS_DV, MII_TXC_RMII_REF_CLK,

MII_RMII_TXD0, MII_RMII_TXD1, MII_TXD2, MII_TXD3, MII_RMII_TXEN,

MII_RMII_MDC, MII_RMII_MDIO

Preliminary Specification Number : SP-UZ1GC-S

12 / 38

Preliminary

< Specification may be changed by Murata without notice >

Murata Manufacturing Co., Ltd.

6. Absolute Maximum Rating

min.

max.

unit

Storage Temperature

-40

85

deg.C

Supply Voltage

VDD_VBAT

-0.5

5.5

V

VDD1_35

-0.5

1.5

V

USB_VDD_3V3

-0.5

3.9

V

VDDIO

-0.5

3.9

V

VDDIO_AUDIO

-0.5

3.9

V

VDDIO_RMII

-0.5

3.9

V

VDDIO_SD

-0.5

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 is set within operating

condition.

7. Operating Condition

min.

typ.

max.

unit

Operating Temperature Range(*1)

-30

85

deg.C

Specification Temperature Range

-20

70

deg.C

Supply Voltage

VDD_VBAT

3.13

4.8

V

VDD1_35

1.3

1.35

1.5

V

USB_VDD_3V3

2.97

3.3

3.63

V

VDDIO

2.97

3.3

3.63

V

VDDIO_AUDIO

1.71

3.63

V

VDDIO_RMII

1.71

3.63

V

VDDIO_SD

1.71

3.63

V

[Note] All RF characteristics in this datasheet are defined by Specification Temperature Range.

Default configuration of VDD_3V3_IN and VDD_3V3_IN2 is to connect with VDD_3V3_LDO.

Specifications require derating at extreme temperatures.

8. External 32.768 kHz Low-Power Oscillator

This module uses a secondary low frequency clock for low-power mode timing.

Parameter

LPO Clock

unit

Normal Input Frequency

32.768

kHz

Frequency Accuracy

+/-200

ppm

Duty Cycle

30 – 70

%

Input Signal Amplitude

200 – 3300

mVp-p

Signal Type

Square-wave, or Sine-wave

-

Input Impedance1)

>100k

<5

Ohm

pF

Clock Jitter (During Initial Start-up)

< 10,000

ppm

1) When power is applied or switched off.

Preliminary Specification Number : SP-UZ1GC-S

13 / 38

Preliminary

< Specification may be changed by Murata without notice >

Murata Manufacturing Co., Ltd.

9. Power Up Sequence

Following timing diagram explain module power up sequence.

*Power down sequence is opposite sequence of power up.

Note: The CYW43907 has an internal power-on-reset (POR) circuit. The device will be held in reset for a

maximum of 110 ms after VDDC (internal LDO output) and VDDIO have both passed the POR threshold.

Note: The 10% - 90% VBAT rise time should not be faster than 40 microseconds. VBAT should be up

before or at the same time as VDDIO. VDDIO should not be present first or be held high before VBAT is

high.

32.768kHz Sleep Clock

VBAT

VDDIO

HIB_REG_ON_IN

~2 Sleep Cycles

Preliminary Specification Number : SP-UZ1GC-S

14 / 38

Preliminary

< Specification may be changed by Murata without notice >

Murata Manufacturing Co., Ltd.

10. Digital I/O Requirements

SDIO Interface I/O Pins

Sym

min.

typ.

max.

unit

For VDDIO_SD=1.8V:

Input high voltage

VIH

1.27

-

V

Input low voltage

VIL

-

0.58

V

Output high voltage@2mA

VOH

1.40

-

V

Output low voltage@2mA

VOL

-

0.45

V

For VDDIO_SD=3.3V:

Input high voltage

VIH

0.625xVDDIO

-

V

Input low voltage

VIL

-

0.25xVDDIO

V

Output high voltage@2mA

VOH

0.75xVDDIO

-

V

Output low voltage@2mA

VOL

-

0.125xVDDIO

V

Other Digital I/O Pins

Sym

min.

typ.

max.

unit

For VDDIO_SD=1.8V:

Input high voltage

VIH

0.65xVDDIO

-

V

Input low voltage

VIL

-

0.35xVDDIO

V

Output high voltage@2mA

VOH

VDDIO-0.45

-

V

Output low voltage@2mA

VOL

-

0.45

V

For VDDIO_SD=3.3V:

Input high voltage

VIH

2.00

-

V

Input low voltage

VIL

-

0.80

V

Output high voltage@2mA

VOH

VDDIO-0.4

-

V

Output low voltage@2mA

VOL

-

0.40

V

RF Switch control Output Pins

Sym

min.

typ.

max.

unit

For VDD_3V3_IN_2=3.3V:

Output high voltage@2mA

VOH

VDDIO-0.4

-

V

Output low voltage@2mA

VOL

-

0.4

V

Input capacitance

CIN

-

5

pF

GPIO, UART, and JTAG Interfaces

Parameter

Sym

min.

typ.

max.

unit

For VDDIO=3.3V:

Input high voltage

VIH

2.0

-

VDDIO+0.5

V

Input low voltage

VIL

-0.5

-

0.8

V

Output high voltage@2mA

VOH

2.4

-

V

Output low voltage@2mA

VOL

-

0.4

V

Preliminary Specification Number : SP-UZ1GC-S

15 / 38

Preliminary

< Specification may be changed by Murata without notice >

Murata Manufacturing Co., Ltd.

11. RF Characteristics

11.1. DC/RF Characteristics for IEEE802.11b

Conditions: 25deg.C, VBAT=3.3V

(11Mbps mode unless otherwise specified.)

Items

Contents

Specification

IEEE802.11b

Mode

CCK

Frequency

2400 - 2483.5MHz

Output Power setting

17.0dBm

- DC Characteristics -

min.

typ.

max.

unit

1. DC current

1) Tx mode (1024byte, 20usec interval)

*1*2

380

480

mA

2) Rx mode

100

150

mA

- Tx Characteristics *1-

min.

Typ.

max.

unit

2. Output Power

15.0

17.0

19.0

dBm

3. Spectrum Mask Margin

1) 1st side lobes(-30dBr)

0

10

-

dB

2) 2nd side lobes(-50dBr)

0

10

-

dB

4. Power-on and Power-down ramp

-

2.0

μsec

5. RF Carrier Suppression

15

-

dB

6. Modulation Accuracy (EVM)

-

23

35

%

7.Frequency tolerance

-20

-5

20

ppm

8. Out band Spurious Emissions

1) 30MHz to 1GHz (BW=100kHz)

-

-36

dBm

2) 1GHz to 12.75GHz (BW=1MHz)

-

-30

dBm

3) 1.8GHz to 1.9GHz (BW=1MHz)

-

-47

dBm

4) 5.15GHz to 5.3GHz (BW=1MHz)

-

-47

dBm

- Rx Characteristics -

min.

typ.

max.

unit

9. Minimum Input Level Sensitivity

(FER < 8%)

-

-89

-76

dBm

10. Maximum Input Level (FER < 8%)

-10

-

dBm

11. Adjacent Channel Rejection

(FER < 8%)

35

-

dB

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

*2: Datarate is 1Mbps

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 Number : SP-UZ1GC-S

16 / 38

Preliminary

< Specification may be changed by Murata without notice >

Murata Manufacturing Co., Ltd.

11.2. DC/RF Characteristics for IEEE802.11g

Conditions: 25deg.C, VBAT=3.3V

(54Mbps mode unless otherwise specified.)

Items

Contents

Specification

IEEE802.11g

Mode

OFDM

Frequency

2400 - 2483.5MHz

Output Power setting

13.0dBm

- DC Characteristics -

min.

typ.

max.

unit

1. DC current

1) Tx mode (1024byte, 20usec interval)

*1*2

320

420

mA

2) Rx mode

100

150

mA

- Tx Characteristics*1 -

min.

typ.

max.

unit

2. Output Power

11.0

13.0

15.0

dBm

3. Spectrum Mask Margin

1) 9MHz to 11MHz (0~ -20dBr)

0

13

-

dB

2) 11MHz to 20MHz (-20~ -28dBr)

0

13

-

dB

3) 20MHz to 30MHz (-28~ -40dBr)

0

14

-

dB

4) 30MHz to 33MHz (-40dBr)

0

14

-

dB

4. Constellation Error (EVM)

-

-36

-25

dB

5.Frequency tolerance

-20

-5

20

ppm

6. Out band Spurious Emissions

1) 30MHz to 1GHz (BW=100kHz)

-

-36

dBm

2) 1GHz to 12.75GHz (BW=1MHz)

-

-30

dBm

3) 1.8GHz to 1.9GHz (BW=1MHz)

-

-47

dBm

4) 5.15GHz to 5.3GHz (BW=1MHz)

-

-47

dBm

- Rx Characteristics -

min.

typ.

max.

unit

7. Minimum Input Level Sensitivity

(PER < 10%)

-

-77

-65

dBm

8. Maximum Input Level (PER < 10%)

-20

-

dBm

9. Adjacent Channel Rejection

(PER < 10%)

-1

-

dB

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

*2: Datarate is 6Mbps

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 Number : SP-UZ1GC-S

17 / 38

Preliminary

< Specification may be changed by Murata without notice >

Murata Manufacturing Co., Ltd.

11.3. DC/RF Characteristics for IEEE802.11n

Conditions: 25deg.C, VBAT=3.3V

(65Mbps(MCS7) mode unless otherwise specified.)

Items

Contents

Specification

IEEE802.11n

Mode

OFDM

Frequency

2400 - 2483.5MHz

Output Power setting

12.0dBm

- DC Characteristics -

min.

typ.

max.

unit

1. DC current

1) Tx mode (1024byte, 20usec interval)

*1*2

310

410

mA

2) Rx mode

100

150

mA

- Tx Characteristics -

min.

typ.

max.

unit

2. Output Power

10.0

12.0

14.0

dBm

3. Spectrum Mask Margin

1) 9MHz to 11MHz (0 ~ -20dBr)

0

13

-

dB

2) 11MHz to 20MHz (-20 ~ -28dBr)

0

13

-

dB

3) 20MHz to 30MHz (-28 ~ -45dBr)

0

9

-

dB

4) 30MHz to 33MHz (-45dBr)

0

9

-

dB

4. Constellation Error (EVM)

-

-38

-27

dB

5.Frequency tolerance

-20

-5

20

ppm

6. Out band Spurious Emissions

1) 30MHz to 1GHz

-

-36

dBm

2) 1GHz to 12.75GHz

-

-30

dBm

3) 1.8GHz to 1.9GHz

-

-47

dBm

4) 5.15GHz to 5.3GHz

-

-47

dBm

- Rx Characteristics -

min.

typ.

max.

unit

7. Minimum Input Level Sensitivity

1) 65Mbps (PER < 10%)

-

-74

-64

dBm

8. Maximum Input Level (PER < 10%)

-20

-

dBm

9. Adjacent Channel Rejection

(PER < 10%)

-2

-

dB

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

*2: Datarate is 6.5Mbps(MCS0)

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 Number : SP-UZ1GC-S

18 / 38

Preliminary

< Specification may be changed by Murata without notice >

Murata Manufacturing Co., Ltd.

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

Conditions : 25deg.C, VBAT =3.3V.

(54Mbps mode unless otherwise specified.)

Items

Contents

Specification

IEEE802.11a

Mode

OFDM

Frequency

5180 - 5825MHz

Output Power setting

13.0dBm

- DC Characteristics -

min.

typ.

max.

unit

1. DC current

1) Tx mode (1024byte, 20usec interval)

*1*2

330

430

mA

2) Rx mode

100

150

mA

- Tx Characteristics*1 -

min.

typ.

max.

unit

2. Output Power

11.0

13.0

15.0

dBm

3. Spectrum Mask Margin

1) 9MHz to 11MHz (0~ -20dBr)

0

12

-

dB

2) 11MHz to 20MHz (-20~ -28dBr)

0

13

-

dB

3) 20MHz to 30MHz (-28~ -40dBr)

0

12

-

dB

4) 30MHz to 33MHz (-40dBr)

0

11

-

dB

4. Constellation Error (EVM)

-

-34

-25

dB

5.Frequency tolerance

-20

0

20

ppm

- Rx Characteristics -

min.

typ.

max.

unit

6. Minimum Input Level Sensitivity

(PER < 10%)

-

-74

-65

dBm

7. Maximum Input Level (PER < 10%)

-30

-

dBm

8. Adjacent Channel Rejection

(PER < 10%)

-1

-

dB

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

*2: Datarate is 6Mbps

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 Number : SP-UZ1GC-S

19 / 38

Preliminary

< Specification may be changed by Murata without notice >

Murata Manufacturing Co., Ltd.

11.5. DC/RF Characteristics for IEEE802.11n - 5GHz

Conditions : 25deg.C, VBAT =3.3V.

(65Mbps (MCS7) mode unless otherwise specified. )

Items

Contents

Specification

IEEE802.11n

Mode

OFDM

Frequency

5180 - 5825MHz

Output Power setting

12.0dBm

- DC Characteristics -

min.

typ.

max.

unit

1. DC current

1) Tx mode (1024byte, 20usec interval)

*1*2

320

420

mA

2) Rx mode

100

150

mA

- Tx Characteristics*1 -

min.

typ.

max.

unit

2. Output Power

10.0

12.0

14.0

dBm

3. Spectrum Mask Margin

1) 9MHz to 11MHz (0~ -20dBr)

0

12

-

dB

2) 11MHz to 20MHz (-20~ -28dBr)

0

13

-

dB

3) 20MHz to 30MHz (-28~ -45dBr)

0

12

-

dB

4) 30MHz to 33MHz (-45dBr)

0

11

-

dB

4. Constellation Error (EVM)

-

-36

-27

dB

5.Frequency tolerance

-20

0

20

ppm

- Rx Characteristics -

min.

typ.

max.

unit

6. Minimum Input Level Sensitivity

(PER < 10%)

-

-73

-64

dBm

7. Maximum Input Level (PER < 10%)

-30

-

dBm

8. Adjacent Channel Rejection

(PER < 10%)

-1

-

dB

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

*2: Datarate is 6.5Mbps(MCS0)

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 Number : SP-UZ1GC-S

20 / 38

Preliminary

< Specification may be changed by Murata without notice >

Murata Manufacturing Co., Ltd.

Conditions:25deg.C, VBAT=3.3V

(135Mbps(MCS7_HT40) mode unless otherwise specified.)

Items

Contents

Specification

IEEE802.11n

Mode

OFDM

Frequency

5190 - 5795MHz

Output Power setting

12.0dBm

- DC Characteristics -

min.

typ.

max.

unit

1. DC current

1) Tx mode (1024byte, 20usec interval)

*1*2

330

430

mA

2) Rx mode

100

150

mA

- Tx Characteristics*1 -

min.

typ.

max.

unit

2. Output Power

10.0

12.0

14.0

dBm

3. Spectrum Mask Margin

1) 19MHz to 21MHz (0~ -20dBr)

0

18

-

dB

2) 21MHz to 40MHz (-20~ -28dBr)

0

10

-

dB

3) 40MHz to 60MHz (-28~ -45dBr)

0

9

-

dB

4) 60MHz to 80MHz (-45dBr)

0

9

-

dB

4. Constellation Error (EVM)

-

-33

-27

dB

5.Frequency tolerance

-20

0

20

ppm

- Rx Characteristics -

min.

typ.

max.

unit

6. Minimum Input Level Sensitivity

(PER < 10%)

-

-69

-61

dBm

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

*2: Datarate is 13.5Mbps(MCS0)

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 Number : SP-UZ1GC-S

21 / 38

Preliminary

< Specification may be changed by Murata without notice >

Murata Manufacturing Co., Ltd.

12. Land pattern (Top View)

0.125

0.435

0.685

0.995

1.245

1.555

1.805

2.115

2.365

2.675

2.925

3.235

3.485

3.795

4.045

4.355

4.605

5.00

0.155

0.405

0.715

0.965

1.275

1.525

1.835

2.085

2.395

2.645

2.955

3.205

3.515

3.765

4.157

4.707

5.00

0.155

0.125

0.375

0.625

0.875

1.125

1.375

1.625

1.875

5.00

0.405

0.715

0.965

1.275

1.525

1.835

2.085

2.395

2.645

2.955

3.205

5.00

0.125

0.435

0.685

0.995

1.245

1.555

1.805

2.115

2.365

1.225

0.775

0.225

2.749

3.299

5.00

1.775

5.00

2.757

3.307

4.137

4.687

Note: For PINs on the board that have a copper pour (flood) associated with it, usually the case with

Ground PINs, please assure that the Land Pattern (PCB Footprint) for these PINs becomes Solder Mask

Defined (SMD). In other words, the SOLDERMASK (SOLDER REGIST) for these Ground (GND) pins

should be 0.550 mm x 0.250 mm (basically SODLERMASK (SOLDER REGIST) becomes same size as

the PIN).

Unit : mm

0.350

0.650

SOLDERMASK

(SOLDER REGIST)

0.250

0.550

0.250

0.550

SOLDER PASTE

(STENCIL)

PADSTACK INFORMATION

Preliminary Specification Number : SP-UZ1GC-S

22 / 38

Preliminary

< Specification may be changed by Murata without notice >

Murata Manufacturing Co., Ltd.

13. Reference Circuit

1

2

3

4

5

6

7

8

9

0

1

2

3

A B C D E F G H I

1

2

3

4

5

6

7

8

9

0

1

2

3

A B C D E F G H I

SFASH_MOSI_0

SFASH_CLK

SFASH_CSN

SFASH_MOSI_2

SFASH_MOSI_3

SFASH_CLK

SFASH_SCN

SFASH_MOSI_0

SFASH_MOSI_1

SFASH_MOSI_2

SFASH_MOSI_3

SPI_0_CLK

SPI_0_MOSI

SPI_0_CS

SPI_0_MISO

SPI_1_CLK

SPI_1_MISO

SPI_1_MOSI

SPI_1_CS

USB2_DP

USB2_DN

PWM_0

PWM_1

PWM_2

PWM_3

PWM_4

PWM_5

GPIO_2_JTAG_TCK

GPIO_3_JTAG_TMS

GPIO_4_JTAG_TDI

GPIO_5_JTAG_TDO

GPIO_6_JTAG_TRST_L

GPIO_0

GPIO_10

GPIO_12

GPIO_14

GPIO_15

GPIO_16

RF_GPAIO_OUT

SDIO_CLK

SDIO_CMD

SDIO_DATA0

SDIO_DATA1

SDIO_DATA2

SDIO_DATA3

RF_SW_CTRL_6_UART1_RX_IN

RF_SW_CTRL_7_RSRC_INIT_MODE_UART1_TX_OUT

RF_SW_CTRL_8_UART2_RX

RF_SW_CTRL_9_HIB_LPO_SEL_UART2_TX

I2S0_SCK_BCLK

I2S0_WS_LRCLK

I2S0_MCK

I2S0_SD_IN

I2S0_SD_OUT

I2S1_SCK_BCLK

I2S1_WS_LRCLK

I2S1_MCK

I2S1_SD_IN

I2S1_SD_OUT

UART0_RXD_IN

UART0_CTS_IN

UART0_TXD_OUT

UART0_RTS_OUT

MII_RMII_MDC

MII_RMII_MDIO

MII_TXC_RMII_REF_CLK

MII_RMII_TXEN

MII_RMII_TXD0

MII_RMII_TXD1

MII_RMII_TXD2

MII_RMII_TXD3

MII_RMII_RXC

MII_RXDV_RMII_CRS_DV

MII_RMII_RXD0

MII_RMII_RXD1

MII_RMII_RXD2

MII_RMII_RXD3

MII_COL

MII_CRS

RESET_N

JTAG_SEL

RF_ANT0

VDD_3V3

0

VDD_VBAT

GND

HIB_XTAL_IN

HIB_XTAL_OUT

HIB_LPO_SEL

HIB_REG_ON_IN

HIB_WAKE

4.7K

VDDIO

33k

GND

0.1uF

GND

4.7K

1M

GND

4.7uF

DEPOP

GND

0.1uF

VDDIO

VDDIO_SD

0.1uF

GND

100pF

GND

1uF

GND

USB_VDD_3V3

VDDIO_AUDIO

4.7uF

GND

0.1uF

GND

VDDIO_RMII

0.1uF

GND

4.7K 4.7K

4.7K

VDDIO

I2C_0_SDA

I2C_0_SCL

I2C_1_SDA

I2C_1_SCL

SFASH_MOSI_1

VDDIO

GND

0.1uF

GND

SI/SIO0

5

SCLK

6

CS_L

1

WP_L/SIO2

3

HLD_L/SIO3

7

VCC 8

SO/SIO1 2

GND 4

HS_GND H

MX25L6433FZNI

GND

HIB_XTAL_OUT

10MEG

0

HIB_XTAL_IN

32.768KHZ

RF_ANT0

GND

DEPOP

GND

0

DEPOP

GND

DEPOP

GND

00

10K

VDDIO

10K 10K

VDDIO

10K

GND

4.7K

GND_A5

A5

GND_A7

A7

GND_A33

A33

GND_A36

A36

GND_A38

A38

GND_A40

A40

GND_A42

A42

GND_B3

B3

GND_B11

B11

GND_B29

B29

GND_B34

B34

GND_C8

C8

GND_D3

D3

GND_D4

D4

GND_D9

D9

GND_D10

D10

GND_D11

D11

GND_D12

D12

GND_E1

E1

GND_E2

E2

GND_E3

E3

GND_E4

E4

GND_E5

E5

GND_E6

E6

GND_E7

E7

GND_E8

E8

GND_E9

E9

GND_E10

E10

GND_E11

E11

GND_E12

E12

VDDIO A56

VDDIO_SD C12

VDDIO_AUDIO A37

USB_VDD_3V3 A34

VDDIO_RMII A57

SDIO_CLK B25

SDIO_CMD B24

SDIO_DATA0 B23

SDIO_DATA1 B22

SDIO_DATA2 B21

SDIO_DATA3 B27

RF_SW_CTRL_6_UART1_RX_IN B18

RF_SW_CTRL_7_RSRC_INIT_MODE_UART1_TX_OUT B15

RF_SW_CTRL_8_UART2_RX B14

RF_SW_CTRL_9_HIB_LPO_SEL_UART2_TX C7

I2S0_WS_LRCLK A51

I2S0_SCK_BCLK B 35

I2S0_MCK B36

I2S0_SD_IN A50

I2S0_SD_OUT A48

I2S1_SCK_BCLK B1

I2S1_WS_LRCLK A49

I2S1_MCK D5

I2S1_SD_IN B38

I2S1_SD_OUT B37

I2C_0_SDA A46

I2S_0_SCL A47

I2C_1_SDA C1

I2S_1_SCL B2

UART0_RXD_IN A52

UART0_TXD_OUT A55

UART0_CTS_IN A54

UART0_RTS_OUT A53

MII_RMII_MDC A15

MII_RMII_MDIO A20

MII_RMII_TXEN A13

MII_RMII_TXD0 D2

MII_RMII_TXD1 A19

MII_TXD2 B10

MII_TXD3 D6

MII_RXC B8

MII_TXC_RMII_REF_CLK A17

MII_RXDV_RMII_CRS_DV A14

MII_RMII_RXD0 A16

MII_RMII_RXD1 A18

MII_RXD2 B5

MII_RXD3 B6

MII_COL B7

MII_CRS B9

VDD_VBAT

A43

SR_VLX1_35

A44

VDD_3V3_LDO

A39

VDD_3V3_IN

A22

VDD_3V3_IN_2

A35

VDD1_35

A41

RF_ANT0

A6

ANT0_DIV_RF_SW_CTRL_4

A25

ANT1_DIV_RF_SW_CTRL_5_DAP_CLK_SEL

A21

RF_GPAIO_OUT

B16

HIB_XTAL_IN

A23

HIB_XTAL_OUT

A24

HIB_LPO_SEL

C6

HIB_REG_ON_IN

C5

HIB_WAKE

B13

SFLASH_CLK

A1

SFLASH_CSN

A4

SFLASH_MOSI_0

A2

SFLASH_MISO_1

A58

SFLASH_MISO_2

A3

SFLASH_MISO_3

D1

SPI_0_CLK

A11

SPI_0_MISO

A12

SPI_0_MOSI

A9

SPI_0_CS

A10

SPI_1_CLK

B32

SPI_1_MISO

B31

SPI_1_MOSI

B30

SPI_1_CS

B33

USB2_DP

A29

USB2_DN

A28

USB2_HOST_DEV_SEL

A32

PWM_0

C10

PWM_1

C9

PWM_2

A27

PWM_3

A26

PWM_4

A31

PWM_5

D7

RESET_L

B12

JTAG_SEL

B17

GPIO_8_TAP_SEL

C16

GPIO_2_JTAG_TCK

C13

GPIO_3_JTAG_TMS

B20

GPIO_4_JTAG_TDI

C3

GPIO_5_JTAG_TDO

B4

GPIO_6_JTAG_TRST_L

C2

GPIO_1_GSPI_MODE

A30

GPIO_7_WCPU_BOOT_MODE

A8

GPIO_9_USB_SEL

C15

GPIO_11_ACPU_B OOT_MODE

C4

GPIO_13_SDIO_MODE

B28

GPIO_0

C11

GPIO_10

A45

GPIO_12

C14

GPIO_14

D8

GPIO_15

B26

GPIO_16

B19

LBWA1UZ1GC

4.7uF

10uF

1000ohm *1

350mA, 490mOHM

2.2uH *2

*1 :BLM15AX102SN1D

*2 :LQM2MPN2R2NG0

*3 :PU(4.7kohm) : JTAG enable

PD(4.7kohm) : JTAG disable

RF line

SFLASH

HIB Xtal

PI-network attenuator

Antenna matching

*3

Preliminary Specification Number : SP-UZ1GC-S

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Preliminary

< Specification may be changed by Murata without notice >

Murata Manufacturing Co., Ltd.

14. Tape and Reel Packing

(1) Dimensions of Tape (Plastic tape)

1) The corner and ridge radiuses (R) of inside cavity are 0.3mm max.

2) Cumulative tolerance of 10 pitches of the sprocket hole is +/-0.2mm

3) Measuring of cavity positioning is based on cavity center in accordance with JIS/IES standard.

(2) Dimensions of Reel

(unit : mm)

2.0±0.1

1.75±0.10

0.30±0.05

1.7 max.

(1.6±0.1)

16.0±0.1

11.5±0.1



1.5+0.1/-0.0



24.0±0.3/-0,1

feeding direction

4

.0±0.1

10.5±0.1

1.5±0.1/-0.0

10.5±0.1

30.5 max.

(



100)



13

±0.2

2.0

±

0.5

25.5±0.6

(



330)

Preliminary Specification Number : SP-UZ1GC-S

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Preliminary

< Specification may be changed by Murata without notice >

Murata Manufacturing Co., Ltd.

(3) Taping Diagrams

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

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

[3] Cover tape : 62μm in thickness

[4] Base tape : As specified in (1)

(4) Leader and Tail tape

Feeding Hole

Chip

Feeding Direction

Pin 1 Marking

Tail tape

(No components)

40 to 200mm

Components

No components

150mm min.

Leader tape

(Cover tape alone)

250mm min.

Feeding direction

[2]

[3]

[4]

[3]

[1]

Preliminary Specification Number : SP-UZ1GC-S

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Preliminary

< Specification may be changed by Murata without notice >

Murata Manufacturing Co., Ltd.

(5) The tape for chips are wound clockwise, the feeding holes to the right side as the tape is pulled

toward the user.

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

(7) Tear off strength against pulling of cover tape : 5N min.

(8) Packaging unit : 1000pcs./ reel

(9) material : Base tape : Plastic

Real : Plastic

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

(10) Peeling of force : 1.1N max. in the direction of peeling as shown below.

(11) Packaging (Humidity proof Packing)

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

and the humidity indicator.

　湿度

インジケ－タ

乾燥剤

表示ラべル

防湿梱包袋

表示ラベル

Label

Desiccant

Humidity

Indicator

Anti-humidity

Plastic Bag

165 to 180 °

1.1 N max.

Base tape

Cover tape

Preliminary Specification Number : SP-UZ1GC-S

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Preliminary

< Specification may be changed by Murata without notice >

Murata Manufacturing Co., Ltd.

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 Number : SP-UZ1GC-S

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Preliminary

< Specification may be changed by Murata without notice >

Murata Manufacturing Co., Ltd.

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)

Please use the reflow within 2 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.

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.

Within 120s

Pre-heating

time(s)

220 deg.C

Within 60s

Cooling down

Slowly

180 deg.C

150 deg.C

240to 250 deg.C

Within 3s

Preliminary Specification Number : SP-UZ1GC-S

28 / 38

Preliminary

< Specification may be changed by Murata without notice >

Murata Manufacturing Co., Ltd.

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.

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 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 Number : SP-UZ1GC-S

29 / 38

Preliminary

< Specification may be changed by Murata without notice >

Murata Manufacturing Co., Ltd.

APPENDIX

Preliminary Specification Number : SP-UZ1GC-S

30 / 38

Preliminary

< Specification may be changed by Murata without notice >

Murata Manufacturing Co., Ltd.

Type1GC Installation Manual (FCC)

FCC ID of this product is as follows.

FCC ID:VPYLB1GC

For OEM integration only – device cannot be sold to general public.

Therefore we will ask OEM to include the following statements required by FCC on the product and in

the Installation manual Notice.

Contents

1.Theory of operation

2.Antenna

3.Notice

1. Theory of Operation

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.

Frequency Tolerance: ± 20ppm

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

Preliminary Specification Number : SP-UZ1GC-S

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Preliminary

< Specification may be changed by Murata without notice >

Murata Manufacturing Co., Ltd.

2. Antenna

■Please refer to KDB 996369

■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 feed line(microstrip line length)

Antenna

Antenna type

2.4GHz Monopole Antenna

5GHz Monopole Antenna

50-ohm feed line length

We test it at 6.15mm as a representative

3. Notice

For OEM integration only – device cannot be sold to general public.

Therefore we will ask OEM to include the following statements required by FCC/IC on the product and in

the Installation manual Notice.

Please describe the following warning on the final product which contains this module.

Contains Transmitter Module FCC ID:VPYLB1GC

or

Contains FCC ID:VPYLB1GC

●Please describe the following warning to the manual.

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.

FCC CAUTION

Changes or modifications not expressly approved by the party responsible for compliance could void

the user’s authority to operate the equipment.

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

transmitter.

※When the product is small, as for these words mentioned above, the posting to a manual is possible.

Preliminary Specification Number : SP-UZ1GC-S

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Preliminary

< Specification may be changed by Murata without notice >

Murata Manufacturing Co., Ltd.

●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.

RF Exposure requirements are met when installed in mobile equipment.

This module cannot be installed in portable equipment without further testing and a change to FCC's

grant of authorization.

Contact Murata regarding portable applications.

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.

This device is intended only for OEM integrators under the following conditions:

1)The antenna must be installed such that 20 cm is maintained between the antenna and users, and

2)The transmitter module may not be co-located with any other transmitter or antenna.

3)The use of an antenna with gain less than 1.2 dBi(2.4GHz) and 2.5 dBi(5GHz).

As long as 3 conditions above are met, further transmitter test will not be required. However, the OEM

integrator is still responsible for testing their end-product for any additional compliance requirements

required with this module installed

IMPORTANT NOTE: In the event that these conditions cannot be met (for example certain laptop

configurations or co-location with another transmitter), then the FCC authorization is no longer

considered valid and the FCC ID cannot be used on the final product. In these circumstances, the OEM

integrator will be responsible for re-evaluating the end product (including the transmitter) and obtaining a

separate FCC authorization.

End Product Labeling

This transmitter module is authorized only for use in device where the antenna may be installed such

that 20 cm may be maintained between the antenna and users. The final end product must be labeled in

a visible area with the following: “Contains FCC ID:VPYLB1GC”. The grantee's FCC ID can be used only

when all FCC compliance requirements are met.

Manual Information To the End User

The OEM integrator has to be aware not to provide information to the end user regarding how to install or

remove this RF module in the user’s manual of the end product which integrates this module.

The end user manual shall include all required regulatory information/warning as show in this manual.

Preliminary Specification Number : SP-UZ1GC-S

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Preliminary

< Specification may be changed by Murata without notice >

Murata Manufacturing Co., Ltd.

Type1GC Installation Manual (IC)

IC No. of this product is as follows.

IC : 772C-LB1GC

For OEM integration only – device cannot be sold to general public.

Therefore we will ask OEM to include the following statements required by IC on the product and in the

Installation manual Notice.

Contents

1.Theory of operation

2.Antenna

3.Notice

1. Theory of Operation

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

'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.

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

Preliminary Specification Number : SP-UZ1GC-S

34 / 38

Preliminary

< Specification may be changed by Murata without notice >

Murata Manufacturing Co., Ltd.

2. Antenna

■Please refer to KDB 996369

■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 feed line(microstrip line length)

Antenna

Antenna type

2.4GHz Monopole Antenna

5GHz Monopole Antenna

50-ohm feed line length

We test it at 6.15mm as a representative

3. Notice

For OEM integration only – device cannot be sold to general public.

Therefore we will ask OEM to include the following statements required by FCC/IC on the product and in

the Installation manual Notice.

Please describe the following warning on the final product which contains this module.

Contains IC:772C-LB1GC

This device complies with Industry Canada’s 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.

※When the product is small, as for these words mentioned above, the posting to a manual is possible.

Preliminary Specification Number : SP-UZ1GC-S

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Preliminary

< Specification may be changed by Murata without notice >

Murata Manufacturing Co., Ltd.

5150-5250 MHz band is restricted to indoor operation only.

La bande 5150-5250 MHz est restreinte à une utilisation à l’intérieur seulement.

High-power radars are allocated as primary users (i.e. priority users) of the bands 5250-5350 MHz and

5650-5850

MHz and that these radars could cause interference and/or damage to LE-LAN devices.

Les radars de haute puissance sont désignés utilisateurs principaux (c.-à-d., qu'ils ont la priorité) pour

les bandes 5250-5350 MHz et 5650-5850 MHz, et ces radars pourraient causer du brouillage et/ou des

dommages aux dispositifs LAN-EL.

●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.

RF Exposure requirements are met when installed in mobile equipment.

This module cannot be installed in portable equipment without further testing and a change to FCC's

grant of authorization.

Contact Murata regarding portable applications.

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 Number : SP-UZ1GC-S

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Preliminary

< Specification may be changed by Murata without notice >

Murata Manufacturing Co., Ltd.

This device is intended only for OEM integrators under the following conditions: (For module

device use)

1) The antenna must be installed such that 20 cm is maintained between the antenna and users, and

2) The transmitter module may not be co-located with any other transmitter or antenna.

3)The use of an antenna with gain less than 1.2 dBi(2.4GHz) and 2.5 dBi(5GHz).

As long as 3 conditions above are met, further transmitter test will not be required. However, the OEM

integrator is still responsible for testing their end-product for any additional compliance requirements

required with this module installed.

Cet appareil est conçu uniquement pour les intégrateurs OEM dans les conditions suivantes:

(Pour utilisation de dispositif module)

1)L'antenne doit être installée de telle sorte qu'une distance de 20 cm est respectée entre l'antenne et

les utilisateurs, et

2)Le module émetteur peut ne pas être coïmplanté avec un autre émetteur ou antenne.

Tant que les 3 conditions ci-dessus sont remplies, des essais supplémentaires sur l'émetteur ne seront

pas nécessaires. Toutefois, l'intégrateur OEM est toujours responsable des essais sur son produit final

pour toutes exigences de conformité supplémentaires requis pour ce module installé.