Semtech EB-GS2972 Evaluation Board User manual

Brand: Semtech

Model: EB-GS2972 Evaluation Board

Type: User manual

This manual is also suitable for

EB-GS2972

EB-GS2972

Evaluation Board User Guide

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EB-GS2972

www.gennum.com

Evaluation Board User Guide

50283 - 2 May 2012

EB-GS2972

Evaluation Board User Guide

50283 - 2 May 2012

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Contents

Overview ..............................................................................................................................................................3

1. Board User Guide ..........................................................................................................................................5

1.1 Power (J1) ............................................................................................................................................5

1.2 Switch Settings (SW6 & SW7) .......................................................................................................5

1.3 Inputs ....................................................................................................................................................7

1.3.1 Audio Input.............................................................................................................................7

1.3.2 Parallel Video Input .............................................................................................................7

1.4 SDI Outputs (J3 and J4) ................................................................................................................... 7

1.5 Control and Status ............................................................................................................................8

1.5.1 GSPI Header (JP8) .................................................................................................................8

1.5.2 JTAG Header (JP1) ................................................................................................................8

1.5.3 Lock Status..............................................................................................................................8

1.6 Modes of Operation .........................................................................................................................8

2. Board Schematics ..........................................................................................................................................9

2.1 Top Level Schematic ........................................................................................................................9

2.2 Audio Input Schematic ................................................................................................................ 10

2.3 GS2972 Schematic ......................................................................................................................... 11

2.4 Power Schematic ........................................................................................................................... 12

3. Board Layout................................................................................................................................................ 13

4. Bill of Materials............................................................................................................................................ 19

Version ECR Date Changes and / or Modifications

2 158067 May 2012 Changed R14 value from 380Ω to 200Ω.

Also, changed mistake in 1.5.2 JTAG

Header (JP1) section.

1 151327 January 2009 Updates to Board Layout figures.

0 149901 June 2008 New document.

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Overview

Together with the EB-GS2972 Evaluation Board, this document serves as a guide for

evaluating the GS2972, a Gennum 3Gb/s, HD, SD SDI Transmitter. This document

contains four main sections:

1. Evaluation Board User Guide.

2. Evaluation Board Schematics.

3. Evaluation Board Layout.

4. Evaluation Board Bill of Materials.

The figure below shows a block diagram of the features and the functions of the

EB-GS2972.

The board includes a power supply, 2 SDI output ports, a GS2972 Transmitter, a parallel

video input connector, an audio input with four BNCs for AES audio, an optional

four-pin header for serial audio, an audio conditioning block, a JTAG/GSPI header, a dip

switch and some status indicator LEDs.

The GS2972 can be configured in SD-SDI, HD-SDI, 3G-SDI or DVB-ASI mode. This may

be selected manually through a DIP switch. The serialized video is available on the SDI

output BNC connectors.

The EB-GS2972 also provides a JTAG interface and access to the GS2972’s internal

registers via GSPI and USB. A GSPI dongle is included in the kit, to communicate with the

GS2972 and Sample Rate Converters (SRCs) through a USB connection.The GSPI dongle

has the provision to control and monitor an additional EB-GS2970 board connected to

the EB-GS2972.

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Block Diagram of the EB-GS2972

GS2972

(Transmitter)

Power

SDO

3G-SDI

20-bit Video

PCLK

LED’s

FVH

GSPI

GSPI Header

Audio

DIP Switch

AES (x4)

Serial Audio

Group 2

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1. Board User Guide

Figure 1-1 shows the inputs, outputs and power connections for the EB-GS2972.

Figure 1-1: GS2972 Evaluation Board (EB-GS2972)

1.1 Power (J1)

The EB-GS2972 requires a single +5V DC power supply. The board is powered through

J1.

LED (D7) indicates the power on/off state of the board.

Through the use of JP7, the user can select the I/O voltage to be either 1.8V or 3.3V.

If the EB-GS2972 and the EB-GS2970 are connected together, one supply will power

both boards. Therefore, the +5V DC power is only required on either the EB-GS2972 or

the EB-GS2970.

1.2 Switch Settings (SW6 & SW7)

DIP switches (SW6 and SW7) are populated on the board with each bit labelled on the

silk-screen. They are used to set the operation mode of GS2972.

Power Supply Connector (J1)

DIP Switches (SW6 & SW7)

Audio Input Group One

(AES 1/J13 & AES 2/J14)

Audio Input Group Two

(AES 2/J115 & AES 2/J16)

Parallel Video Input

Connector (J25)

H, V & F Timing Signals

Connector (J27)

GSPI Header (JP8)

JTAG Header (JP1)

Lock Status LED (U25)

SDI Outputs (J3 & J4)

1.8V/3.3V Jumper (JP7)

Power Status LED (D7)

GSPI Connector for Interface

with the GS2970 Receiver (J29)

Serial Audio Input (Group Two)

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NOTE: Some signals are active LOW so that you will need to switch the bit OFF to

activate the signal.

Refer to the GS2972 Data Sheet for definitions of each bit.

Table 1-1: SW6 and SW7 Settings

Bit Name Description

TIM861

(SW6)

Connected to the GS2972 TIM_861 pin. Used to select external CEA-861 timing mode.

When DETECT_TRS is LOW and TIM-861 is LOW, the device extracts all internal timing from the supplied H:V:F

timing signals. When DETECT_TRS is LOW and TIM-861 is HIGH, the device extracts all internal timing from the

supplied HSYNC, VSYNC, DE timing signals.

When DETECT_TRS is HIGH, the device extracts all internal timing from TRS signals embedded in the supplied

video stream.

SMPTE_BYPASSn

(SW6)

Connected to the GS2972 SMPTE_BYPASS

pin. Used to enable/disable all forms of encoding/decoding,

scrambling and EDH insertion.

When set LOW, the device operates in Data Through mode (DVB_ASI= LOW), or in DVB_ASI mode (DVB_ASI =

HIGH). No SMPTE scrambling takes place and none of the I/O processing features of the device are available

when SMPTE_BYPASS

is set LOW.

When set HIGH, the device carries out SMPTE scrambling and I/O processing.

DVB_ASI

(SW6)

Connected to the GS2972 DVB_ASI pin. Used to enable/disable the DVB-ASI data transmission.

When set HIGH, the device will carry out DVB_ASI, word-alignment, I/O processing and transmission. The

SMPTE_BYPASS

pin must be set LOW.

When SMPTE_BYPASS

and DVB_ASI are both set LOW, the device operates in data-through mode.

RATE_SEL0,

RATE_SEL1

(SW6)

Connected to the GS2972 RATE_S EL0 and RATE_SEL1 pins. Used to configure the operating data rate.

IOPROC_EN/DISn

(SW6)

Connected to the GS2972 IOPROC_EN/DIS

pin. When IOPROC_EN/DIS is HIGH, the I/O processing features of the

device are enabled. When IOPROC_EN/DIS

is LOW, the I/O processing features of the device are disabled. Only

applicable in SMPTE mode.

20bit/10bitn

(SW6)

Connected to the GS2972 20bit/10bit

pin. Used to select the input bus width.

SDO_EN/DISn

(SW6)

Connected to the GS2972 SDO_EN/DIS

pin. Used to enable or disable the serial digital output stage.

When SDO_EN/DIS

is LOW, the serial digital output signals SDO and SDO are disabled and become

high-impedance.

When SDO_EN/DIS

is HIGH, the serial digital output signals SDO and SDO are enabled.

DETECT_TRS

(SW7)

Connected to the GS2972 DETECT_TRS pin. Used to select external HVF timing mode or TRS extraction timing

mode.

When DETECT_TRS is LOW, the device extracts all internal timing from the supplied H:V:F or CEA-861 timing

signals, dependent on the status of the TIM861 pin. When DETECT_TRS is HIGH, the device extracts all internal

timing from TRS signals embedded in the supplied video stream.

RATE_SEL0

Data Rate

1.485 or 1.485/1.001Gb/s

2.97 or 2.97/1.001Gb/s

270Mb/s

RATE_SEL1

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1.3 Inputs

1.3.1 Audio Input

Up to 8 channels of audio are supported by the EB-GS2972.

Group One (AES 1/J13 and AES 2/J14) goes to SRCs. Through the software, the SRC can

be programmed to output AES or serial (synchronous or asynchronous) audio signals to

the GS2972. The master clock for the SRCs is supplied by the GS4911B on the

EB-GS2972.

Group Two can be connected directly to the GS2972 as AES (AES 3/J15 and AES 4/J16)

or serial audio (Header J30). In the case where synchronous audio is required, external

synchronization must be applied. This configuration is meant to allow users to have the

capability of evaluating audio embedding. For SD audio, when embedding audio with

both groups, the audio needs to be synchronized externally.

1.3.2 Parallel Video Input

The EB-GS2972 has a 48-pin parallel connector for the serialized video input (J25). The

video input includes the 20-bit video data and pixel clock.

The related timing signals (F,V,H) are on the 10-bit parallel connector (J27).

1.4 SDI Outputs (J3 and J4)

The EB-GS2972 includes two SDI outputs on J3 and J4.

ANC_BLANKn

(SW7)

Connected to the GS2972 ANC_BLANK pin.

When ANC_BLANK is LOW, the Luma and Chroma input data is set to the appropriate blanking levels during the

H and V blanking intervals.

When ANC_BLANK is HIGH, the Luma and Chroma data pass through the device unaltered. Only applicable in

SMPTE mode.

GRP1_EN/DISn

(SW7)

Connected to the GS2972 GRP1_EN/DIS

pin. Enable Input for Audio Group 1. Set HIGH to enable.

GRP2_EN/DISn

(SW7)

Connected to the GS2972 GRP2_EN/DIS

pin. Enable Input for Audio Group 2. Set HIGH to enable.

STANDBY

(SW7)

Connected to the GS2972 STANDBY pin. HIGH to power-down device.

NOTE: Cable Driver is not powered down.

JTAG_HOSTn

(SW7)

Connected to the GS2972 JTAG/HOST

pin. Used to select JTAG test mode or Host Interface mode.

When JTAG/HOST

is HIGH, the Host Interface port is configured for JTAG test.

When JTAG/HOST

is LOW, normal operation of the Host Interface port resumes and the separate JTAG pins

become the JTAG port (JP1).

Table 1-1: SW6 and SW7 Settings

Bit Name Description

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1.5 Control and Status

1.5.1 GSPI Header (JP8)

The GS2972 contains a set of internal status and configuration registers. These registers

are available to the host via the GS2972s GSPI pins. To communicate with the GS2972

and the two SRCs, a Gennum USB to GSPI dongle must be connected to the GSPI header.

A GSPI dongle is provided for communication to the GSPI interface. If you have the

EB-GS2972 and the EB-GS2970 connected together, only one GSPI dongle is required,

and can be connected to either of the boards. On the EB-GS2972, connector J29 provides

interface with the EB-GS2970.

1.5.2 JTAG Header (JP1)

This header is used for the JTAG test of the GS2972. It can also be used to communicate

with the GSPI interface of the GS4911B to program the part. To change this header to the

GS4911B GSPI interface, populate R115 and R113 with 0

Ω, and unpopulate R114 and

R22. However, under normal conditions, the GS4911B will not need to be programmed.

1.5.3 Lock Status

LED U25 indicates the lock status of the GS2972.

1.6 Modes of Operation

The GS2972 supports four distinct modes of operation that can be set through the DIP

switch or by programming internal registers through the GSPI. These modes are: SMPTE

mode, Data-Through mode, DVB-ASI mode and Standby mode.

In SMPTE mode, the GS2972 performs all SMPTE processing features. Both SMPTE 425M

Level A and Level B formats are supported with optional conversion from Level A to

Level B for 1080p 50/60 4:2:2 10-bit.

In DVB-ASI mode, the device will perform 8b/10b encoding prior to transmission.

In Data-Through mode, all SMPTE and DVB-ASI processing is disabled. The device can

be used as a simple parallel to serial converter.

The device can also operate in a lower power Standby mode. In this mode, no signal is

generated at the output.

The DIP switches (SW6 and SW7) correspond directly to pins on the GS2972. Refer to the

GS2972 Data Sheet for a more detailed explanation of the operation of these pins in each

mode.

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2. Board Schematics

2.1 Top Level Schematic

Figure 2-1: Top Level Schematic

TCK

GND

TDO

VDD

TMS

TDI

GND

JP1

TSW-105-07-L-D

VCC_3.3V

C69

0.1u

IOVDD_2972

1RATE_SEL0

TIM861

RATE_SEL1

SMPTE_BYPASSn

DV B_ASI

RAT E_SEL0

S_AUDIO_1 GS2972_Audio1

GND

RESET

Vcc

WDI

MAX6823V

ANC_BLANKn

IOPROC_EN/DISn

RAT E_SEL1

20BIT /10BIT n

DETECT_TRS

SDO_EN/DISn

RATE_SEL1 Pin _ctrl8

IOPROC_EN/DISn Pin _ctrl7

SDO_EN/DISn Pin _ctrl5

J13 BCJ-FPLV01

IOVDD_2972

8 9

RN1

T/R b0

T/R b3

T/R b2

T/R b1

VCCA

VCCB

GND

OEb

U17

FXL4TD245

TIM861 Pin _ctrl12

GSPI_GS4911_2

RATE_SEL0 Pin _ctrl9

DVB_ASI Pin _ctrl10

SMPTE_BYPASSn Pin _ctrl11

GND

IOVDD_2972

R20

10K

IOVDD_2972

R21

10K

IOVDD_2972

R22

10K

JTAG/GSPI_GS4911

DETECT_TRS Pin _ctrl4

S_AUDIO_2 GS2972_Audio2

JTAG0

SDOUT SRC4382_SPI0

R102

75R

GND

ANC_BLANKn Pin _ctrl3

R103

75R

AES 2

GND

R104

75R

GNDGND

AES 3

GND

GS2972_GSPI3

R105

75R

GNDA_2972

AES 4

SDI Output

GND

AES 1

GND

UCBBJE20-1

GRP1_EN_DISn Pin _ctrl2

+SDO

GNDA_2972

-SDO

GSPI

GND

R115

CS2

CS1

JTAG/HOSTb

R80 10K

R79 10K

R78 10K

CS3

R77 10K

GS2972_GSPI2

GS2972_GSPI0

GS2972_GSPI1

GND

GRP2_EN_DISn Pin _ctrl1

STANDBY Pin _ctrl13

CS0

GND

Pin _ctrl0JTAG_HOSTn

S_AUDIO_3 GS2972_Audio3

Sch_GS2972

GS2972

SDO

SDOn

GS2972_PCLK

GS2972_DIN[19:0]

GS2972_HVF[2:0]

GS2972_Audio[7:0]

GS2972_RESETn

GS2972_Locked

Pin _ctrl[13:0]

JTAG[3:0]

GS2972_GSPI[3:0]

8 9

RN2

PCLK_GS4911

Sch_Audio_In

Audio_In

AES_IN1_2

AES_IN3_4

AES_IN5_6

AES_IN7_8

S_AUDIO_[3:0]

GS2972_AES5_6

GS2972_AES7_8

Audio_RST

HVF_IN[2:0]

SRC4382_SPI[4:0]

PCLK_GS4911

GSPI_GS4911_[3:0]

910

JP8

TSW-105-07-L-D

Sch_Power

Power

CS1

GND

R107

1.15K

PCLK_IN

GSPI_GS4911_2

GSPI_GS4911_3TCK

GSPI_GS4911_[3:0]

GSPI_GS4911_0

GSPI_GS4911_1TMS

R1140R

TDI

R108

SDIN SRC4382_SPI1

GS2972_Audio7

GS2972_Audio6

WCLK_connGS2972_Audio5

ACLK_connGS2972_Audio4

GND

J25

SQT-124-01-F-D-RA

PCLK

FEMALE: TOP-SIDE

J27

SQT-105-01-F-D-RA

FEMALE: TOP-SIDE

V GS2972_HVF1

GND

H GS2972_HVF0

IOVDD_2972

GS2972_DIN2

GS2972_DIN1

GS2972_DIN0

PCLK_IN

GS2972_DIN6

GS2972_DIN5

GS2972_DIN7

GS2972_DIN4

GS2972_DIN3

GS2972_DIN17

GS2972_DIN12

GS2972_DIN11

GS2972_DIN8

GS2972_DIN9

GS2972_DIN10

GS2972_DIN19

GS2972_DIN15

GS2972_DIN16

GS2972_DIN18

GS2972_DIN14

Pin _ctrl[13:0]

SDIN

SCLK

SDOUT

GS2972_DIN13

J29

SQT-105-01-F-D-RA

FEMALE: TOP-SIDE

CS1

CS3

CS2

R106NP

GS2972_GSPI[3:0]

TMS

GND

JTAG2

OPEN

CLOSED

SW6

SW8_LOGIC_DIP_TH

S_AUDIO_[3:0]

OPEN

CLOSED

SW7

SW6_LOGIC_DIP_TH

R113NP

RST

CS0

SCLK

J14 BCJ-FPLV01

TDO

F GS2972_HVF2

20BIT/10BITn Pin _ctrl6

P.O. Box 489, Station A

Pin _ctrl0

STANDBY

SDIN

GND

R109 NP

GRP1_EN_DI Sn

GRP2_EN_DI Sn

ST ANDBY

VCC_3.3V

SCLK SRC4382_SPI2

CS1

JTAG_HOSTn

Lock

A1 green

A2 red

U25

HSMF-C165

R101

75R

GND

R112

GS2972_Audio[7:0]

GS2972_DIN[19:0]

VCC_5V

TCK

GS2972_HVF[2:0]

RESET

IOVDD_2972

SDOUT

GND

J16

BCJ-FPLV01

J304 HEADER

IOVDD_2972

VCC_3.3V

JTAG3

CS2 SRC4382_SPI3

SRC4382_SPI[4:0]

JTAG[3:0]

JTAG1

GND

B3S-1002

RESET

PCLK_GS4911

S_AUDIO_0 GS2972_Audio0

GND

RESET

CS3 SRC4382_SPI4

RESET

GS2972_Audio6

GSPI_GS4911_[3:0]

GND

VCCA

VCCB

TR0

TR1

GND

OEb

U28

FXL2TD245

VCC_3.3V

IOVDD_2972

GND

GS2972_Audio7

GS2972_HVF[2:0]

TDO

J15 BCJ-FPLV01

500R500R

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2.2 Audio Input Schematic

Figure 2-2: Audio Input Schematics

AES_IN3_4

Master clock for SRC

GND

Audio_RST

IO_V_SRC4382

Audio_RST

slow_48k

SRC4382_SPI0

TP16

GSPI_GS4911_3

ACLK_GS4911

Audio_RST

SRC4382_SPI1

Au dio outputs and SPI

TP17

GND

SRC4382_SPI2

R86

1.15K

3V3_SRC4382

GND

GSPI_GS4911_2

SRC4382_SPI3

ACLK_GS4911

SRC4382_SPI3

AES3_4_SRC4382

C122 0.1u

C148 0. 1u

GND

Gr2_AES_Ser

Part Ref erence

105R

GND

AES1_2_SRC4382

C143

0.1u

C144

0.1u

GND

Vcc

110R

U10

SN65LVDT2

VCC_3.3V

GND

GND GND

GSPI_GS4911_1

Connect pin 44 to pin 10.

Pin 10 is then connected to

the ground plane.

GND

slow_48k

S_AUDIO_[3:0]

GND

SRC4382_SPI2

GSPI_GS4911_0

3V3_SRC4382

PCLK_GS4911

S_AUDIO_2

1 B1

3 B2

GND

5Vcc

U18

SN74LVC1G3157

IO_V_SRC4382

SRC4382_SPI4

GND

R111

105R

AES3_4_SRC4382

C146

0.1u

C145

0.1u

VCC_3.3V

GND

Vcc

110R

U11

SN65LVDT2

GND GND

GND

RX1+

RX1-

RX2+

RX2-

RX3+

RX3-

RX4+

RX4-

VCC

AGND

LOCKb

RXCKO

RXCKI

MUTE

RDYb

DGND1

VDD18

CPM

CSb

CCLK

CDIN

CDOUT

INTb

RSTb

MCLK

GPO1

GPO2

GPO3

GPO4

DGND2

TX-

TX+

VDD33

AESOUT

BLS

SYNC

BCKA

LRCKA

SDINA

SDOUTA

VIO

DGND3

BGND

SDOUTB

SDINB

LRCKB

BCKB

U26

SRC4382

GND

AES_IN5_6

AES5_6

R92

105R

C126

0.1u

GND

C125

0.1u

GND

Vcc

110R

U12

SN65LVDT2

GND GND

SRC4382_SPI2

VCCA

VCCB

TR0

TR1

GND

OEb

U24

FXL2TD245

GND

PCLK_GS4911

GSPI_GS4911_3

RX1+

RX1-

RX2+

RX2-

RX3+

RX3-

RX4+

RX4-

VCC

AGND

LOCKb

RXCKO

RXCKI

MUTE

RDYb

DGND1

VDD18

CPM

CSb

CCLK

CDIN

CDOUT

INTb

RSTb

MCLK

GPO1

GPO2

GPO3

GPO4

DGND2

TX-

TX+

VDD33

AESOUT

BLS

SYNC

BCKA

LRCKA

SDINA

SDOUTA

VIO

DGND3

BGND

SDOUTB

SDINB

LRCKB

BCKB

U27

SRC4382

AES_IN7_8

GND

S_AUDIO_0

AES7_8

R93

105R

C128

0.1u

C127

0.1u

VCC_3.3V

GND

Vcc

110R

U13

SN65LVDT2

GND GND

GND

SRC4382_SPI1

GND

1V8_SRC4382

S_AUDIO_1

GS2972_AES5_6

AES_IN1_2

S_AUDIO_2

GS2972_AES7_8

AES7_8

AES5_6

R88

1.15K

1V8_SRC4382

S_AUDIO_3

GSPI_GS4911_[3:0]

GS2972_AES5_6

GS4911_genlockb

HVF_IN[2:0]

SRC4382_SPI1

GS2972_AES5_6

GS2972_AES7_8

1V8_SRC4382

SRC4382_SPI0

VCC_3.3V

S_AUDIO_0

Connect pin 44 to pin 10.

Pin 10 is then connected to

the ground plane.

GSPI_GS4911_0

GSPI_GS4911_[3:0]

GSPI_GS4911_1

TP21

GND

IOVDD_2972

GSPI_GS4911_2

SRC4382_SPI[4:0]

S_AUDIO_0

SRC4382_SPI0

1V8_SRC4382

S_AUDIO_1

IO_V_SRC4382

SRC4382_SPI[4:0]

AES1_2_SRC4382

C116 0.1u

SRC A

C147 0.1u

GND

1V8_Core_GS4911

Audio_RST

3V3_PLL_SRC4382_A

SRC B

GND

S_AUDIO_1

GND

R95

10K

HVF_IN1

HVF_IN2

ACLK_GS4911

V_STD_Sel

HVF_IN0

IO_V_GS4911

HVF_IN[2:0]

PCLK_GS4911

1V8_GS4911

IO_V_GS4911

1V8_GS4911

1V8_Core_GS4911

1V8_GS4911

GS4911_genlockb

IO_V_GS4911

1V8_GS4911

IO_V_GS4911

V_STD_Sel

1V8_GS4911

V_STD_Sel

Audio_RST

VID_PLL_GND

VID_PLL_VDD

XTAL_VDD

XTAL_GND

CORE_GND

PHS_GND

PHS_VDD

ANALOG_VDD

ANALOG_GND

AUD_PLL_GND

AUD_PLL_VDD

10FID

HSYNC

VSYNC

IO_VDD

FSYNC

VID_STD0

VID_STD1

VID_STD2

VID_STD3

VID_STD4

VID_STD5

ACLK1

ACLK2

ACLK3

IO_VDD

CORE_VDD

ASR_SEL2

ASR_SEL1

ASR_SEL0

TIMING_OUT1

TIMING_OUT2

IO_VDD

TIMING_OUT4

TIMING_OUT3

TIMING_OUT5

LVDS/PCLK3_VDD

PCLK3

LVDS/PCLK3_GND

PCLK3

PCLK2

PCLK1&2_GND

PCLK1

IO_VDD

TIMING_OUT6

TIMING_OUT7

TIMING_OUT8

PCLK1&2_VDD

LOCK_LOST

REF_LOST

GENLOCK

CORE_VDD

JTAG/HOST

SCLK_TCLK

SDIN_TDI

SDOUT_TDO

CS_TMS

RESET

IO_VDD

GND_PAD

U20

GS4911

AES inputs 1_2 and 3_4 with SRCs

1V8_GS4911

27.000MHZ

VDD_XTAL_GS4911

R99

10K

C120

24p

C119

38p

R98

22R

R97

IO_V_GS4911

TP23

TP22

GND

S_AUDIO_[3:0]

3V3_PLL_SRC4382_B

GND

Gr2_AES_Ser

AES inputs 5_6 and 7_8

S_AUDIO_3

1 B1

3 B2

GND

5Vcc

U22

SN74LVC1G3157

IO_V_SRC4382

VCC_3.3V

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2.3 GS2972 Schematic

Figure 2-3: GS2972 Schematic

TP12

C18

10u

R17

DNP

C41 4u7

R27 75R

R24 75R

C24

10n

C16

10n

C37 1u

10n

TP11

C33

TP8

C34

10n

C36 10u

10n

C39 4u7

R28 75R

C29

10n

R23

750R

C32

10n

C15

L3 5n6

C31

R13

TP10

R26 75R

R14 200R

C10

10n

R11

R65

10u

SDO

105R

Return Loss compensation Network

SDOn

C30

C35 100p

Pins A5,E1,K8,G10

C17

10n

GS2972_SDI_SDOn

GS2972_SDI_SDO

(SUBJECT TO CHANGE)

VCO_VDD

VBG

VCO_GND

TDI

RSV

TIM_861

PCLK

IO_VDD

DIN18

DIN19

AVDD

A10

AGND

B10

DIN17

CORE_VDD

GRP1_EN/DIS

DETECT_TR S

CORE_GND

AGND

DIN16

CORE_VDD

G10

PLL_VDD

RSV

STANDBY

ACLK1

WCLK1

AIN_1/2

DIN14

DIN15

CORE_GND

RSV

DVB_ASI

LOCKED

GRP2_EN/DIS

AIN_3/4

DIN12

DIN13

RSV

TMS

TDO

RATE_SEL0

CORE_GND

CORE_VDD

ACLK2

IO_VDD

H10

DIN10

DIN11

RSV

TCK

CORE_GND

20BIT/10BIT

CORE_GND

CORE_VDD

WCLK2

IO_GND

DIN8

DIN9

RSV

CD_GND

IOPROC_EN/DIS

SMPTE_BYPASS

RESET

AIN_5/6

ANC_BLANK

DIN6

DIN7

CD_GND

CORE_GND

AUDIO_INT

CS_TMS

SCLK_TCK

J10

SDOUT_TDO

AIN_7/8

H/HSYNC

DIN4

DIN5

CORE_GND

PLL_GND

SDO_EN/DIS

SDIN_TDI

K10

V/VSY NC

IO_GND

DIN2

DIN3

RSET

F10

CD_VDD

E10

SDO

C10

SDO

D10

CD_GND

JTAG/HOST

F/DE

RATE_SEL1

DIN0

DIN1

GS2972

C40 10n

L4 5n6

C19

10n

TP9

C14

10n

C25

10n

GS2972_PCLK

SDOn

SDO

GS2972_HVF[2:0]

GS2972_DIN[19:0]

GS2972_RESETn

GS2972_Audio[7:0]

JTAG[3:0]

Pin _ctrl[13:0]

GS2972_Locked

GNDA_2972

GS2972_GSPI[3:0]

GNDA_2972

VCC_3.3V

GNDA_2972

VCC_3.3V

+1.2V

CDVDD_2972

+1.2VA_2972

IOVDD_2972

+3.3VA_2972

+1.2VA_2972

+1.2VA_2972 IOVDD_2972 +3.3VA_2972

CDVDD_2972

+1.2V

GNDA_2972

CDVDD_2972

GND

CDVDD_2972

GND

C38

DNP

Close to

GS2972.

GS2972_PCLK

R82

R81

GS2972_Locked

GS2972_AIN3_4GS2972_Audio3

GS2972_AIN1_2GS2972_Audio2

GS2972_WCLK1GS2972_Audio1

GS2972_ACLK1GS2972_Audio0

GS2972_AIN7_8GS2972_Audio7

GS2972_AIN5_6GS2972_Audio6

GS2972_WCLK2GS2972_Audio5

GS2972_ACLK2GS2972_Audio4

Close to GS2972.

GS2972_HGS2972_HVF0

GS2972_VGS2972_HVF1

GS2972_FGS2972_HVF2

GS2972_RESETn

GS2972_DIN14

Power Decoupling & Filtering

GS2972_DIN16

GS2972_DIN15

GS2972_DIN2

GS2972_DIN1

GS2972_DIN19

GS2972_DIN18

GS2972_DIN17

GS2972_DIN6

GS2972_DIN5

GS2972_DIN0

GS2972_DIN4

GS2972_DIN3

GS2972_DIN7

GS2972_DIN11

GS2972_DIN10

GS2972_DIN9

GS2972_DIN8

GS2972_DIN13

GS2972_DIN12

JTAG_HOSTn Pin _ctrl0

20BIT/10BITn Pin _ctrl6

SDO_EN/DISn Pin _ctrl5

DETECT_TR S Pin _ctrl4

ANC_BLANKn Pin _ctrl3

TIM861 Pin _ctrl12

GRP2_EN_DISn Pin _ctrl1

SMPTE_BYPASSn Pin _ctrl11

DVB_ASI Pin _ctrl10

RATE_SEL0 Pin _ctrl9

RATE_SEL1 Pin _ctrl8

IOPROC_EN/DI Sn Pin _ctrl7

GRP1_EN_DISn Pin _ctrl2

Pin A10

IO_V

Pins A6,B6

GS2972_TDI2 JTAG0

GS2972_TMS2 JTAG1

GS2972_TCK2 JTAG3

GS2972_TDO2 JTAG2

3.3V or 1.8V

GS2972_SDO GS2972_GSPI0

GS2972_SDI GS2972_GSPI1

GS2972_SCK GS2972_GSPI2

GS2972_CSn GS2972_GSPI3

Pin E10

Pin _ctrl13STANDBY

Pins G1,H10

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2.4 Power Schematic

Figure 2-4: Power Schematic

C129

10u

C82

10n

+1.2V

TP2

C26

0.1u

C102

10n

Between pins 33 and 30

SRC-A

He at s in k

on copper

C27

22u

Between pins 33 and 30

SRC-B

SHDN

AGND

PGND

SENSE

OUT

LT3021ES8-1.2

500mA

C99

10n

C100

10n

C101

10n

C98

10n

C95

10u

DECOUPLING

@ PIN 5

GND

Between pins 16 and 17

SRC-B

Between pins 16 and 17

SRC-A

R76 0R

C134

10u

C135

10u

GND

1V8_SRC4382

C136

10u

C137

0.1u

C138

0.1u

VCC_1.8V

1V8_Core_GS4911VCC_1.8V

C112

10u

GND

C114

0.1u

C113

10u

C111

0.1u

R71

JP7

()

VCC_3.3V

1.8V 3.3V

VCC_1.8V

IO V

IO_V

C88

10n

C86

R32

240R

R66

49.9K

1.15K

+1.8V

C84

0.1u

TP3

PWR

C85

22u

He at s in k

on copper

SHDN

AGND

PGND

SENSE

OUT

U16

LT3021ES8-1.8

VCCA

GND

DIR

VCCB

SN74LVC1T45DBVR

U15

C87

22u

500mA

VCC_3.3V

PWRGD_3V3

C90

3.57K

VCC_1.8V

C12

22u

GND

VCC_5V

BIAS

OUT

GND

Pad

U14

TPS74201_RGW

LNJ311G8P

GND

VCC_5V

GNDGND

GND

VCC_3.3VVCC_5V

VCC_3.3V

VCC_5V

GND

PWRGD_3V3

POWER SUPPLIES

C118

10n

C117

10n

GND

IO_V_GS4911

DECOUPLING @ PINS18,31,38,50,62

R68

C96

0.1u

C97

0.1u

C78

10n

C75

10n

C76

10n

C77

10n

C74

10n

VCC_3.3V

C70

IO_V

+1.2V

Between pins 43 and 42

SRC-A

Between pins 43 and 42

SRC-B

3V3_SRC4382

R72 2R

C20

EEV-FK1C221XP

R690R

C91

22u

GND

C139

10u

Between pins 9 and 10

SRC-A

C140

0.1u

DECOUPLING @

PINS 26,44

C104

10u

GND

C105

10u

5V Input

GND

VDD_XTAL_GS4911VCC_3.3V

C107

10u

C106

10u

R70

C115

0.1u

3V3_PLL_SRC4382_A

C130

10u

GND

R75 0R

C131

10u

R73 2R

3V3_SRC4382

Between pins 9 and 10

SRC-B

C142

0.1u

C141

10u

GND

3V3_PLL_SRC4382_B

GS4911 decoupling

SRC4382 power decoupling

3V3_SRC4382

IO_V_SRC4382

GND

C110

10u

1V8_GS4911VCC_1.8V

C73

10u

GND

C80

10u

C92

0.1u

C81

0.1u

R67

C108

0.1u

C72

0.1u

C94

0.1u

C93

10u

C109

0.1u

IO_V

VCC_3.3V

C83

10n

DECOUPLING @ PINS 3,10,14,45,53,54

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3. Board Layout

Figure 3-1: Layer 1 (Top Layer)

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Figure 3-2: Layer 2 (Ground)

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Figure 3-3: Layer 3 (Power)

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Figure 3-4: Layer 4 (Signal 1)

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Figure 3-5: Layer 5 (Signal 2)

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Figure 3-6: Layer 6 (Bottom Layer)

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4. Bill of Materials

Table 4-1: Bill of Materials

Quantity Reference Part

14 C3, C4, C5, C6, C9, C10, C14, C17, C19, C24,

C29, C32, C34, C40

10nF Capacitor (402)

22 C7, C18, C36, C73, C80, C93, C95, C104, C105,

C106, C107, C110, C112, C113, C129, C130,

C131, C134, C135, C136, C139, C141

10μF Capacitor (0603)

8 C8, C15, C16, C25, C30, C31, C33, C37 1μF Capacitor (0603)

5 C12, C27, C85, C87, C91 22μF Capacitor (0805)

1 C20 EEV-FK1C221XP Capacitor

(CT-CAP/PANA_FK_D8)

30 C26, C69, C72, C81, C84, C92, C94, C96, C97,

C108, C109, C111, C114, C115, C116, C122,

C125, C126, C127, C128, C137, C138, C140,

C142, C143, C144, C145, C146, C147, C148

0.1μF Capacitor (0603)

1 C35 100pF Capacitor (0402)

2 C39, C41 4.7μF Capacitor (0603)

2 C43, C44 16pF Capacitor (0603)

3 C70, C86, C90 1μF Capacitor (0402)

15 C74, C75, C76, C77, C78, C82, C83, C88, C98,

C99, C100, C101, C102, C117, C118

10nF Capacitor (0402)

1 C119 38pF Capacitor (0402)

1 C120 24pF Capacitor (0402)

1 D7 LNJ311G8P (1206_LED)

2 JP1, JP8 TSW-105-07-L-D

1JP7 BLKCON

.100/VH/TM1SQ/W.100/3

1 J1 5V Input

(CON_WEID5MM_2_PWR)

2 J3, J4 UCBBJE20-1 (BNC_EDGEMNT

_GHZ-POUR-2LYR-ER3.8)

4 J13, J14, J15, J16 BCJ-FPLV01

1J25 SQT-124-01-F-D-RA (HEADER

2MM_48_2X24_INVERSE)

2 J27, J29 SQT-105-01-F-D-RA (HEADER

2MM_10_2X5_INVERSE)

1 J30 4 HEADER (header_4_1x4)

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2 L3, L4 5.6nH Inductor (0402)

16 R1, R6, R9, R11, R13, R67, R68, R69, R70, R71,

R75, R76, R81, R82, R112, R114

0Ω Resistor (0603)

1 R2 3.57kΩ Resistor (0603)

3 R4, R86, R88 1.15kΩ Resistor (0603)

6 R7, R92, R93, R107, R110, R111 105Ω Resistor (0603)

1 R14 200Ω Resistor (0603)

9 R20, R21, R22, R77, R78, R79, R80, R95, R99 10kΩ Resistor (0603)

1 R23 750Ω Resistor (0402)

9 R24, R26, R27, R28, R101, R102, R103, R104,

R105

75Ω Resistor (0402)

1 R32 240Ω Resistor (0603)

1 R66 49.9kΩ Resistor (0603)

2R72, R73 2Ω Resistor (0805)

1 R97 1MΩ Resistor (0402)

1 R98 22Ω Resistor (0603)

1R108 0Ω Resistor (0402)

2 RN1, RN2 500Ω Resistor Network

1 SW6 SW8_LOGIC_DIP_TH

1 SW7 SW6_LOGIC_DIP_TH

1 S1B3S-1002

12 TP2, TP3, TP8, TP9, TP10, TP11, TP12, TP16,

TP17, TP21, TP22, TP23

Via (CT-TP)

1 U1 MAX6823V (SOT23)

1 U4 LT3021ES8-1.2 (CT-SOIC_8)

1U5 GS2972

(CT-BGA_100_11X11_1.00)

4 U10, U11, U12, U13 SN65LVDT2 (SOT23-5)

1 U14 TPS74201_RGW

(20QFN-5X5(MOD))

1U15 SN74LVC1T45DBVR (sot23-6)

1 U16 LT3021ES8-1.8 (CT-SOIC_8)

1 U17 FXL4TD245 (mlp16e)

2 U18, U22 SN74LVC1G3157 (S

OT23-6)

1U20 GS4911B (64QFN-9X9-P65)

Table 4-1: Bill of Materials

Quantity Reference Part

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Semtech EB-GS2972 Evaluation Board User manual

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Model: EB-GS2972 Evaluation Board

Type: User manual

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