Semtech GS2986 Multi-rate sdi reclocker with equalization & de-emphasis Datasheet

GS2986
GS2986 Multi-Rate SDI Reclocker with Equalization & De-emphasis
Features
Description
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The GS2986 is a multi-rate serial digital reclocker designed to
automatically recover the embedded clock from a digital video
signal and retime the incoming video data. It will recover the
embedded clock signal and retime the data from a SMPTE 424M,
SMPTE 292M, or SMPTE 259M-C compliant digital video signal.
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SMPTE 424M, SMPTE 292M and SMPTE 259M-C compliant
Supports DVB-ASI at 270Mb/s
Single supply operation at 3.3V or 2.5V
180mW typical power consumption (213mW with RCO
enabled) at 2.5V
Input signal equalization and output-signal de-emphasis
settings to compensate for board-trace dielectric losses
4:1 input multiplexer patented technology
Choice of dual reclocked data outputs or one reclocked data
output and one clock output
Uses standard 27MHz crystal
Cascadable crystal buffer supports multiple reclockers using
a single crystal
Differential inputs and outputs
Š support DC coupling to industry-standard differential
logic
Š on-chip 100Ω differential data input/output termination
Š selectable 400mVppd or 800mVppd output swing on
each output
Š seamless interface to other Gennum products
4 wire SPI host interface for device configuration and
monitoring
Standard logic control and status signal levels
Auto and Manual modes for rate selection
Standards indication in Auto mode
Lock Detect Output
Mute, Bypass and Autobypass functions
SD/HD indication output to control GS2978 or GS2988 dual
slew-rate cable drivers
Operating temperature range: -40°C to +85°C
Small footprint QFN package (6mm x 6mm)
Pb-free and RoHS compliant
A serial host interface provides the ability to configure and
monitor multiple GS2986 devices in a daisy-chain configuration.
Adjustable input trace equalization (EQ) for up to 40” of FR4 trace
losses, and adjustable output de-emphasis (DE) for up to 20” of
FR4 trace losses, can be configured via the host interface.
The GS2986 can operate in either auto or manual rate selection
mode. In Auto mode, the device will automatically detect and lock
onto incoming SMPTE SDI data signals at any supported rate. For
single rate data systems, the GS2986 can be configured to operate
in Manual mode. In both modes, the device requires only one
external crystal to set the VCO frequency when not locked and
provides adjustment free operation.
The GS2986 accepts industry-standard differential input levels
including LVPECL and CML. The differential data and clock
outputs feature selectable output swing via the host interface,
ensuring compatibility with most industry-standard, terminated
differential receivers.
The GS2986 features dual differential outputs. The second output
can be configured to emit either the recovered clock signal or the
re-timed video data. This output can also be disabled to save
power.
In systems which require passing of non-SMPTE data rates, the
GS2986 can be configured to either automatically or manually
enter a bypass mode in order to pass the signal without reclocking.
The GS2986 is Pb-free, and the encapsulation compound does not
contain halogenated flame retardant. This component and all
homogeneous sub-components are RoHS compliant.
Applications
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SMPTE 424M, SMPTE 292M and SMPTE 259M-C coaxial
cable serial digital interfaces
GS2986 Multi-Rate SDI Reclocker with Equalization &
De-emphasis
Data Sheet
52134 - 3
July 2012
www.semtech.com
1 of 41
XTAL-
CP_CAP
XTAL_BUF_OUT
XTAL+
XTAL
OSC
LF+
Buffer
LDO
DDO0
Retimer
Data
Buffer
DDO0
Phase
Frequency
Detector
DDI0
DDI0
Charge
Pump
VCO
DDI1
DDO1/RCO
Clock/
Data
Buffer
DDO1/RCO
DDI1
Equalizer/
Data Mux
Phase
Detector
DDI2
DDI2
Selectable
Divide
DDI3
DDI3
Selectable
Divide
LOS
Detect
HIF
SDI/EQ0_EN
LOS
LDO
Control
SDO/EQ1_EN
SCK/EQ2_EN
CS/EQ3_EN
DDI_SEL[1:0]
1.8V
SPI
LOCKED
DDO1_DISABLE
SD/HD
VDD_1p8
GS2986 Functional Block Diagram
Revision History
Version
ECR
PCN
Date
Changes and/or Modifications
3
158335
–
July 2012
Removed jumper from Figure 5-1:
GS2986 Typical Application Circuit
2
158129
–
May 2012
Corrected 4.15.3 section to make it
easier to follow and changed to
Semtech template.
1
153705
–
March 2010
Converted to Data Sheet. Updated
Power numbers in Table 2-1: DC
Electrical Characteristics. Added Table
4-5: Suggested LOS Threshold Settings.
0
152591
–
September
2009
Converted to Preliminary Data Sheet.
Updates to Electrical Characteristics.
Updates to Section 4.15 Host Interface.
B
151972
–
July 2009
Added Section 4.15 Host Interface.
Updated Power numbers in Table 2-1:
DC Electrical Characteristics and Loop
Bandwidth numbers in Table 2-2: AC
Electrical Characteristics. Added Table
1-2: GS2986 Default Start-up Settings
and Figure 4-2: De-emphasis
Waveform.
A
151668
–
April 2009
New document.
GS2986 Multi-Rate SDI Reclocker with Equalization &
De-emphasis
Data Sheet
52134 - 3
July 2012
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Contents
Features.................................................................................................................................................................1
Applications.........................................................................................................................................................1
Description...........................................................................................................................................................1
Revision History .................................................................................................................................................2
1. Pin Out...............................................................................................................................................................5
1.1 Pin Assignment ..................................................................................................................................5
1.2 Pin Descriptions ................................................................................................................................6
1.3 Default Start-up Settings ................................................................................................................8
2. Electrical Characteristics ............................................................................................................................9
2.1 Absolute Maximum Ratings ..........................................................................................................9
2.2 DC Electrical Characteristics ........................................................................................................9
2.3 AC Electrical Characteristics ..................................................................................................... 10
3. Input/Output Circuits ............................................................................................................................... 13
4. Detailed Description.................................................................................................................................. 17
4.1 Serial Data Input ............................................................................................................................ 17
4.2 Modes of Operation ...................................................................................................................... 17
4.3 Input Trace Equalization ............................................................................................................. 17
4.4 4:1 Input Mux .................................................................................................................................. 18
4.5 Crystal Buffer .................................................................................................................................. 19
4.6 LOS (Loss Of Signal) Detection .................................................................................................. 19
4.7 Serial Digital Reclocker ............................................................................................................... 20
4.8 Lock Detection ................................................................................................................................ 20
4.8.1 Lock Detect and Asynchronous Lock ......................................................................... 21
4.9 Serial Data Output ......................................................................................................................... 21
4.9.1 Output Signal Interface Levels...................................................................................... 21
4.9.2 Adjustable Output Swing................................................................................................ 21
4.9.3 Output De-emphasis ........................................................................................................ 21
4.10 Automatic and Manual Data Rate Selection ...................................................................... 22
4.11 SD/HD Indication ........................................................................................................................ 23
4.12 Bypass Mode ................................................................................................................................. 23
4.13 DVB-ASI ......................................................................................................................................... 24
4.14 Output Mute and Data/Clock Output Selection ............................................................... 24
4.15 Host Interface ............................................................................................................................... 24
4.15.1 Introduction ...................................................................................................................... 24
4.15.2 Legacy Mode & Start-up................................................................................................ 25
4.15.3 Host Interface Mode & Start-up.................................................................................. 25
4.15.4 Clock & Data Timing....................................................................................................... 25
4.15.5 Single Device Operation ............................................................................................... 25
4.15.6 Write Operation - Single Device ................................................................................ 26
4.15.7 Read Operation - Single Device ................................................................................. 27
4.15.8 Daisy Chain Operation.................................................................................................. 29
4.15.9 Read & Write Operation - Daisy Chained Devices .............................................. 30
4.15.10 Writing to all Devices .................................................................................................. 30
4.15.11 Writing to a Single Device in the Chain ................................................................ 31
GS2986 Multi-Rate SDI Reclocker with Equalization &
De-emphasis
Data Sheet
52134 - 3
July 2012
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4.15.12 Reading from all Devices ........................................................................................... 31
4.15.13 Reading from a Single Device in the Chain.......................................................... 32
4.15.14 Host Register Map......................................................................................................... 33
4.16 Device Power-up ......................................................................................................................... 36
4.17 Standby ........................................................................................................................................... 36
5. Typical Application Circuit ..................................................................................................................... 37
6. Package and Ordering Information...................................................................................................... 38
6.1 Package Dimensions ..................................................................................................................... 38
6.2 Recommended PCB Footprint ................................................................................................... 39
6.3 Packaging Data ............................................................................................................................... 39
6.4 Marking Diagram ........................................................................................................................... 40
6.5 Solder Reflow Profile .................................................................................................................... 40
6.6 Ordering Information ................................................................................................................... 41
GS2986 Multi-Rate SDI Reclocker with Equalization &
De-emphasis
Data Sheet
52134 - 3
July 2012
4 of 41
1. Pin Out
XTAL_BUF_OUT
36
XTAL+
37
XTAL-
SDI/EQ0_EN
38
CS/EQ3_EN
VEE_CP
39
SCK/EQ2_EN
VCC_CP
40
SDO/EQ1_EN
LF+
1.1 Pin Assignment
35
34
33
32
31
CP_CAP
1
30
VEE_DDO0
DDI0
2
29
VCC_DDO0
HIF
3
28
DDO0
DDI0
4
27
DDO0
DDI1
5
26
VEE_DDO1
DDI1
6
25
VCC_DDO1
DDI2
7
24
DDO1/RCO
DDI2
8
23
DDO1/RCO
DDI3
9
22
DDO1_DISABLE
10
21
SD/HD
17
18
19
20
VDD_DIG
VSS_DIG
VCC_VCO
16
LOS
DDI_SEL1
15
LOCKED
14
VDD_1P8
13
VEE_VCO
12
DDI_SEL0
Ground Pad
(bottom of package)
11
RSVD
DDI3
GS2986
40-pin QFN
(top view)
Figure 1-1: GS2986 Pin Out
GS2986 Multi-Rate SDI Reclocker with Equalization &
De-emphasis
Data Sheet
52134 - 3
July 2012
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1.2 Pin Descriptions
Table 1-1: GS2986 Pin Descriptions
Pin Number
Name
Type
Description
1
CP_CAP
Power
External capacitor for internal LDO regulator supplying the charge pump
circuit.
2, 4
DDI0, DDI0
Input
Serial Digital Differential Input 0.
3
HIF
Logic Input
5, 6
DDI1, DDI1
Input
Serial Digital Differential Input 1.
7, 8
DDI2, DDI2
Input
Serial Digital Differential Input 2.
9, 10
DDI3, DDI3
Input
Serial Digital Differential Input 3.
11
RSVD
Reserved
12, 13
DDI_SEL[0:1]
Logic Input
14
VCC_VCO
Power
Most positive power supply connection for the internal
VCO section. Connect to a 3.3V supply with a 422Ω resistor, or to a 2.5V
supply with a 267Ω resistor.
15
VEE_VCO
Power
Most negative power supply connection for the internal
VCO section. Connect to GND.
16
VDD_1P8
Power
External capacitor for internal 1.8V digital supply.
17
LOCKED
Output
Lock Detect status signal. HIGH when the PLL is locked.
18
LOS
Output
Loss Of Signal status. HIGH when the input signal is invalid.
19
VDD_DIG
Power
Most positive power supply connection for the digital core.
Connect to 3.3V or 2.5V.
20
VSS_DIG
Power
Most negative power supply for the digital core.
Connect to GND.
21
SD/HD
Output
This signal will be LOW for all rates other than 270Mb/s.
This signal is HIGH for 270Mb/s.
22
DDO1_DISABLE
Logic Input
23, 24
DDO1/RCO,
DDO1/RCO
Output
Differential serial clock or data outputs.
25
VCC_DDO1
Power
Most positive power supply connection for the DDO1/DDO1 output driver.
Connect to 3.3V or 2.5V.
26
VEE_DDO1
Power
Most negative power supply connection for the DDO1/DDO1 output
driver. Connect to GND.
27, 28
DDO0, DDO0
Output
Differential Serial Digital Outputs.
GS2986 Multi-Rate SDI Reclocker with Equalization &
De-emphasis
Data Sheet
52134 - 3
July 2012
Host interface selection pin. Active-low input. See Section 4.15.1.
Reserved pin. Do not connect to this pin.
Selects one of four serial digital input signals for processing. See
Section 4.4.
Disables the DDO1/RCO and DDO1/RCO outputs
when LOW.
See Section 4.14.
6 of 41
Table 1-1: GS2986 Pin Descriptions (Continued)
Pin Number
Name
Type
Description
29
VCC_DDO0
Power
Most positive power supply connection for the DDO0/DDO0 output driver.
Connect to 3.3V or 2.5V.
30
VEE_DDO0
Power
Most negative power supply connection for the DDO0/DDO0 output
driver.
Connect to GND.
31
XTAL_BUF_OUT
Output
Buffered output of the reference oscillator.
32
XTAL+
Output
Reference crystal output.
33
XTAL-
Input
34
CS/EQ3_EN
Input/Logic
Input
Reference crystal input.
In host mode (HIF set LOW):
Chip select input for SPI serial host interface. Active-low input.
In non-host mode (HIF set HIGH):
Trace equalization on/off pin for Serial Digital Differential Input 3.
Active-high input.
35
SCK/EQ2_EN
Input/Logic
Input
In host mode (HIF set LOW):
Burst-mode clock input for SPI serial host interface.
In non-host mode (HIF set HIGH):
Trace equalization on/off pin for Serial Digital Differential Input 2.
Active-high input.
36
SDO/EQ1_EN
Input/Logic
Input
In host mode (HIF set LOW):
Serial digital data output for SPI serial host interface. Active-high output.
In non-host mode (HIF set HIGH):
Trace equalization on/off pin for Serial Digital Differential Input 1.
Active-high input.
37
SDI/EQ0_EN
Input/Logic
Input
In host mode (HIF set LOW):
Serial digital data input for SPI serial host interface. Active-high input.
In non-host mode (HIF set HIGH):
Trace equalization on/off pin for Serial Digital Differential Input 0.
Active-high input.
38
VEE_CP
Power
Most negative power supply connection for the internal
charge pump. Connect to GND.
39
VCC_CP
Power
Most positive power supply connection for the internal charge pump.
Connect to 3.3V or 2.5V
40
LF+
Passive
−
Center Pad
−
GS2986 Multi-Rate SDI Reclocker with Equalization &
De-emphasis
Data Sheet
52134 - 3
July 2012
Loop Filter capacitor connection. (CLF = 47nF). Connect as shown in Typical
Application Circuit on page 37.
Ground pad on bottom of package. Connect to GND.
7 of 41
1.3 Default Start-up Settings
The GS2986 has some functions that are not accessible via direct pin control, and are only
accessible through the host interface registers. These functions have an internal pull-up or
pull-down resistor that sets the default logic level or start-up state, if it is not already set by
a pin.
If the user wishes to override these logic levels, the associated bit should be programmed
within the PIN_OR_1 register (pin override register) at address 0x0C. The logic values
within the PIN_OR_1 register become active when the user sets the Pin Override Enable bit
to HIGH within that same register.
Table 1-2 shows:
1. The default logic state set by the internal pull-up or pull-down resistors.
2. The default values within the Pin Override register upon reset.
More details are given in Section 4.15.
Table 1-2: GS2986 Default Start-up Settings
Default State set by
Internal Resistors
Default State within
the Pin Override
Register
Bypasses the reclocker stage when set HIGH.
0
0
When set HIGH, this bit automatically bypasses the
reclocker stage when the PLL is not locked to a
supported rate.
0
0
When set HIGH, the standard is automatically detected
from the input data rate.
1
0
None
0:0
Floating
Ground
Name
BYPASS
AUTOBYPASS
AUTO/MAN
SS0, SS1
KBB
Description
When AUTO/MAN is set HIGH, SS[1:0] are outputs
displaying the data rate to which the PLL has locked.
Therefore, the bits will not have a default start-up
value.
Controls the loop bandwidth of the PLL.
DATA_MUTE
Mutes the DDO0/DDO0 and DDO1/DDO1 (if data is
selected) outputs when LOW.
1
0
DATA/CLOCK
HIGH = DATA
LOW = CLOCK
0
0
De-emphasis on/off pin for serial digital output.
0
0
DE_EN
HIGH = de-emphasis on
LOW = de-emphasis off
GS2986 Multi-Rate SDI Reclocker with Equalization &
De-emphasis
Data Sheet
52134 - 3
July 2012
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2. Electrical Characteristics
2.1 Absolute Maximum Ratings
Parameter
Value
Supply Voltage
-0.5 to +3.6VDC
Input ESD Voltage
4kV
Storage Temperature Range
-50ºC < TA < 125ºC
Operating Temperature Range
-40ºC to 85ºC
Input Voltage Range
-0.3 to (VCC + 0.3) VDC
Solder Reflow Temperature
260ºC
2.2 DC Electrical Characteristics
Table 2-1: DC Electrical Characteristics
Parameter
Supply Voltage
Power (DDO1/RCO disabled, minimum
output swing)
Symbol
VDD
P
Power (DDO1/RCO enabled, minimum
output swing)
Power in Power-down mode
Conditions
Min
Typ
Max
Units
3.3V
3.135
3.3
3.465
V
2.5V
2.375
2.5
2.625
V
VDD = 3.3V
−
250
325
mW
VDD = 2.5V
−
180
235
mW
VDD = 3.3V
−
290
390
mW
VDD = 2.5V
−
210
275
mW
VDD = 3.3V
−
48
60
mW
VDD = 2.5V
−
30
40
mW
Serial Input Termination
−
Differential
80
100
120
Ω
Serial Output Termination
−
Differential
80
100
120
Ω
Serial Input Common Mode Voltage
−
−
1.6
−
VDD
V
Serial Output Common Mode Voltage
−
−
−
VCC(ΔVOD
/2)
−
V
VIL (2.5V operation)
−
VOUT≤VOL, max
-0.3
−
0.7
V
VOUT≤VOL, max
-0.3
−
0.8
V
VOUT≥VOH, min
1.7
−
VDD
+0.3
V
VOUT≥VOH, min
2
−
VDD
+0.3
V
VIN = 0V or VIN = VDD
−
+/-10
+/-20
μA
VIL (3.3V operation)
VIH (2.5V operation)
−
VIH (3.3V operation)
IIN
−
GS2986 Multi-Rate SDI Reclocker with Equalization &
De-emphasis
Data Sheet
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July 2012
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Table 2-1: DC Electrical Characteristics (Continued)
Parameter
Symbol
Conditions
−
VOL (2.5V operation)
VOL (3.3V operation)
−
VOH (2.5V operation)
VOH (3.3V operation)
−
Hysteresis Voltage (SPI inputs)
NOTE: guaranteed by simulation.
Min
Typ
Max
Units
VDD = min, IOL = 100μA
−
−
0.2
V
VDD = min, IOL = 100μA
−
−
0.2
V
VDD = min, IOH = -100μA
2.1
−
−
V
VDD = min, IOH = -100μA
VDD
-0.4
−
−
V
2.5V operation
−
350
−
mV
3.3V operation
−
350
−
mV
2.3 AC Electrical Characteristics
Table 2-2: AC Electrical Characteristics
Parameter
Serial Input Data Rate
(for reclocking)
Symbol
DRSDO
Serial Input Data Rate
(bypass)
Conditions
Min
Typ
Max
Units
Notes
−
0.27
−
2.97
Gb/s
−
−
DC
−
2.97
Gb/s
−
−
−
−
10
MHz
−
SPI Operating Speed
−
Input Voltage Swing
ΔVSDI
Set ATTEN_EN = 1 for
ΔVSDI>1Vpp
100
−
2000
mVp-pd
−
Output Voltage Swing
ΔVOD
default
300
400
500
mVp-pd
−
see DRIVER_1 register
(0x01) addresses 8 & 9 in
4.15.14 Host Register
Map.
600
800
1000
mVp-pd
−
LOW
Recommended setting for 0 to 10
inches of FR4
−
MED
Recommended setting for 10 to 20
inches of FR4
−
HIGH
Recommended setting for >20 inches
of FR4
−
Input Trace Equalization
−
GS2986 Multi-Rate SDI Reclocker with Equalization &
De-emphasis
Data Sheet
52134 - 3
July 2012
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Table 2-2: AC Electrical Characteristics (Continued)
Parameter
Output De-Emphasis
Input Jitter Tolerance
Loop Bandwidth
Symbol
−
−
BWLOOP
Conditions
Min
Typ
Max
Units
Notes
OFF - 0
−
0
−
dB
−
ON - 0
−
0
−
dB
−
ON - 1
−
0.7
−
dB
−
ON - 2
−
1.3
−
dB
−
ON - 3
−
2
−
dB
−
ON - 4
−
2.6
−
dB
−
ON - 5
−
3.3
−
dB
−
ON - 6
−
4
−
dB
−
ON - 7
−
4.7
−
dB
−
0.8
−
−
UI
−
KBB = VCC
−
170
−
kHz
−
KBB = FLOAT
−
340
−
kHz
−
KBB = GND
−
680
−
kHz
−
KBB = VCC
−
0.875
−
MHz
−
KBB = FLOAT
−
1.75
−
MHz
−
KBB = GND
−
3.5
−
MHz
−
KBB = VCC
−
1.75
−
MHz
−
KBB = FLOAT
−
3.5
−
MHz
−
KBB = GND
−
7.0
−
MHz
−
square-wave modulated
jitter
(270Mb/s)
BWLOOP
(1485Mb/s)
BWLOOP
(2970Mb/s)
PLL Lock Time (asynchronous)
talock
−
−
0.5
1
ms
−
PLL Lock Time (synchronous)
tslock
CLF = 47nF, SD/HD = 0
−
0.5
4
μs
−
CLF = 47nF, SD/HD = 1
−
5
10
μs
−
KBB = FLOAT
−
0.01
−
UI
−
−
0.03
−
UI
−
−
0.05
−
UI
−
20% to 80% (400mV
swing)
−
65
−
ps
−
20% to 80% (800mV
swing)
−
80
−
ps
−
−
−
−
15
ps
−
Serial Data output Jitter Intrinsic
(DDO0)
tOJ(270MB/s)
PRN 2^23-1 test pattern
tOJ(1485MB/s)
KBB = FLOAT
PRN 2^23-1 test pattern
tOJ(2970MB/s)
KBB = FLOAT
PRN 2^23-1 test pattern
Output Rise/Fall Time
Output Rise/Fall Time Mismatch
tr/f
−
GS2986 Multi-Rate SDI Reclocker with Equalization &
De-emphasis
Data Sheet
52134 - 3
July 2012
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Table 2-2: AC Electrical Characteristics (Continued)
Parameter
Symbol
Conditions
Min
Typ
Max
Units
Notes
Eye Cross Shift
−
percentage of signal
amplitude
−
−
5
%
−
Power Supply Noise Rejection
−
50 - 100Hz
−
100
−
mVp-p
−
100Hz - 10MHz
−
40
−
mVp-p
−
10MHz - 1.485GHz
−
10
−
mVp-p
−
GS2986 Multi-Rate SDI Reclocker with Equalization &
De-emphasis
Data Sheet
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July 2012
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3. Input/Output Circuits
VCC
5.55kΩ
12.96kΩ
25Ω
VCC
VCC
25Ω
25Ω
25Ω
DDI
DDI
Figure 3-1: High-speed Inputs (DDI0, DDI0, DDI1, DDI1, DDI2, DDI2, DDI3, DDI3)
VCC
2.5µA
VCC
1.4kΩ
IN
VREF
Figure 3-2: Low-speed Input with weak internal pull-up (HIF, DDO1_DISABLE)
GS2986 Multi-Rate SDI Reclocker with Equalization &
De-emphasis
Data Sheet
52134 - 3
July 2012
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VCC
VCC
1.4kΩ
IN
VREF
2.5µA
Figure 3-3: Low-speed Input with weak internal pull-down (DDI_SEL0,
DDI_SEL1)
VCC
VCC
972Ω
OUT
Figure 3-4: Low-speed Outputs (LOCKED, LOS, SD/HD)
VCC
VCC
VCC
50Ω
DDO
50Ω
DDO
Figure 3-5: High-speed Outputs (DDO1/RCO, DDO1/RCO, DDO0, DDO0)
GS2986 Multi-Rate SDI Reclocker with Equalization &
De-emphasis
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VCC
VCC
XTAL_BUFF_OUT
Figure 3-6: Crystal Buffered Output (XTAL_BUF_OUT)
VCC
VCC
EN
VCC
VCC
XTAL+
246Ω
XTALEN
Figure 3-7: High-speed Crystal Oscillator I/O (XTAL-, XTAL+)
VCC
VCC
1kΩ
IN
2.5µA
Figure 3-8: SPI Inputs/EQ Ctrl (CS/EQ3_EN, SCK/EQ2_EN, SDI/EQ0_EN)
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VCC
VCC
1.4kΩ
VREF
2.5µA
VCC
Tgate
SDO
SPI SDO
tri-state
Logic
Figure 3-9: SPI Output/EQ Control (SDO/EQ1_EN)
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4. Detailed Description
The GS2986 is a multi-standard reclocker for serial digital SDTV signals operating at 270Mb/s,
and HDTV signals operating at 1.485Gb/s, 1.485/1.001Gb/s, 2.97Gb/s and 2.97/1.001Gb/s.
4.1 Serial Data Input
The GS2986 features four differential input buffers.
The serial data input signal is connected to the DDI0/DDI0, DDI1/DDI1, DDI2/DDI2 and
DDI3/DDI3 input pins of the device.
Input signals can be single-ended or differential, DC or AC-coupled.
The input circuit is self-biasing, to allow for simple AC or DC-coupling of input signals to the
device.
4.2 Modes of Operation
The GS2986 has two modes of operation: Legacy Mode (HIF = HIGH) and SPI Mode (HIF = LOW).
In Legacy Mode, chip functions are controlled via pins only, and offers limited control of input
Equalization.
In SPI mode, access is gained to extended digital controls like: Bypass, Autobypass,
Auto/Manual selection, Control status inputs or outputs, changes to KBB settings, additional EQ
and DE settings as well as access to additional features such as LOS adjustment, polarity invert,
auto-mute, etc.
4.3 Input Trace Equalization
The GS2986 features adjustable trace equalization to compensate for PCB trace dielectric losses
at 1.5GHz.
The trace equalization has three peak-gain settings. The maximum peak gain value is optimized
for compensating the high-frequency losses associated with 25 inches of 5-mil stripline in FR4
material. For boards with different striplines or materials, users can experiment to find the EQ
setting which optimizes their system performance.
These settings are accessible via the serial host interface.
Each serial digital input; DDI, DDI includes a pin EQn_EN to turn its trace equalizer on or off.
When a pin EQn_EN is tied LOW or left unconnected, the trace equalization for input n is set to
LOW.
When an EQn_EN pin is tied HIGH, and input n is selected, the trace equalization for input n is
set to Medium.
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Table 4-1: Input Trace Equalization Operation
EQn_EN Setting
Trace Equalization
LOW
Low
HIGH
Medium
The default peak-gain setting upon power-up is optimized for compensating the
high-frequency losses associated with approximately 10 inches of 5-mil stripline in FR4
material.
The EQn_EN pins are multiplexed with the serial host interface pins when pin HIF is tied high,
as shown in Table 4-2:
Table 4-2: EQn_EN Pins Multiplexed
Pin
Function
SDI/EQ0_EN
Active-high logic input to enable trace-equalization for high-speed input channel 0.
SDO/EQ1_EN
Active-high logic input to enable trace-equalization for high-speed input channel 1.
SCK/EQ2_EN
Active-high logic input to enable trace-equalization for high-speed input channel 2.
CS/EQ3_EN
Active-high logic input to enable trace-equalization for high-speed input channel 3.
4.4 4:1 Input Mux
The GS2986 incorporates a 4:1 input mux, which allows the connection of four independent
streams of video/data. There are four differential inputs (DDI[3:0] / DDI[3:0]). The active channel
can be selected via the DDI_SEL[1:0] pins as shown in Table 4-3.
Table 4-3: Input Selection Table
DDI_SEL[1:0]
Selected Input
00
DDI0
01
DDI1
10
DDI2
11
DDI3
The DDI_SEL pins include internal pulldowns which pull the input voltage LOW if either pin is
unconnected. Active circuitry associated with the input buffers and trace EQ can only be turned
on for the selected input. Inputs which are not selected have their input buffers and trace EQs
turned OFF to save power. Unused inputs can be either left floating, or tied to VCC.
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4.5 Crystal Buffer
The GS2986 features a crystal buffer supporting a Gennum recommended external 27MHz
crystal. The GS2986 requires an external 27MHz reference clock for correct operation. This
reference clock is generated by connecting a crystal to the XTAL- and XTAL+ pins of the device.
Alternately, a 27MHz external clock source can be connected to the XTAL- pin of the device,
while the XTAL+ pin should be left floating.
4.6 LOS (Loss Of Signal) Detection
The LOS (Loss Of Signal) status pin is an active-high output that indicates when the serial digital
input signal selected at the 4:1 input mux is invalid. In order for this output to be asserted,
transitions must not be present for a period of tLA = 5 - 10μs. After this output has been asserted,
LOS will de-assert within tLD = 0 - 5μs after the appearance of a transition at the DDIx input. See
Figure 4-1.
This signal is HIGH (signal lost), when the number of data edges within a window is below a
defined threshold. The output is automatically muted when LOS is detected.
This signal is LOW (signal valid), when the number of data edges within a window is above a
defined threshold. See Table 4-4.
Table 4-4: LOS Operation
LOS
Signal
HIGH
Invalid
LOW
Valid
The LOS function is operational for all operating modes of the device.
t LA
t LD
DATA
LOS
Figure 4-1: LOS Signal Timing
The LOS detector has two major modes. In legacy mode, a simple edge-based detector is used to
monitor the received signal at the output of the data slicer. Since the incoming signal has
undergone considerable gain by this point, the legacy detector can be more susceptible to false
de-assertion of LOS for unused channels which experience significant cross-talk from adjacent
active channels.
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The new LOS detector uses a measure of both signal amplitude and duration to minimize false
detection of the impulse like signals that are characteristic of cross-talk. In this mode, the signal
is tapped off at the output of the equalizer stage, prior to the high gain buffers.
The threshold setting within the detector can be adjusted to increase or decrease its sensitivity.
Gennum recommends using the least sensitive threshold level. This provides the most margin
against false de-assertion of LOS.
Table 4-5: Suggested LOS Threshold Settings
Input Signal
Amplitude
LOS Detection
Method Select
LOS Threshold
Adjust
>250mV
0x1
0x0
200mV to 250mV
0x1
0x1
150mV to 200mV
0x1
0x2
<150mV
0x1 or 0x0
0x3
The LOS mode can be selected by using the host interface, in register TOP_1 (address 0x02).
4.7 Serial Digital Reclocker
The output of the Equalizer is fed to the reclocker. The function of the reclocker is to re-time the
input signal and to generate system clocks.
The reclocker operates at three frequencies; 2.97Gb/s, 1.485Gb/s and 270Mb/s, and provides a
minimum input jitter tolerance of 0.8UI to square-wave-modulated jitter at these rates.
When there is no serial input signal, the internal clock maintains a frequency close to the
expected incoming data rate by locking to the external reference crystal.
4.8 Lock Detection
The lock detect block indicates, via the active-high LOCKED signal, when the device has
achieved lock to the incoming data stream.
The lock logic within the GS2986 includes a system that monitors the frequency and the phase
of the incoming data, as well as a monitor to detect harmonic lock.
Table 4-6: Lock Operation
LOCKED
Status
HIGH
Locked
LOW
Not locked
The LOCKED output signal is also available via the host interface.
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4.8.1 Lock Detect and Asynchronous Lock
The reference crystal is used to assist the PLL in achieving short lock time. The lock detection
algorithm is a continuous process, which begins at device power up or after a system reset, and
continues until the device is powered down.
The asynchronous lock time is defined as the time it takes the device to lock when a video signal
is first applied to the serial digital inputs, or when the digital video signal rate changes.
The synchronous lock time is defined as the time it takes the device to lock to a signal which has
been momentarily interrupted.
4.9 Serial Data Output
The GS2986 features two current-mode differential output drivers, each capable of driving a
maximum of 800mVpp, differential, into an external 100Ω differential load.
Each of the GS2986's output buffers include two on-chip, 50Ω termination resistors.
4.9.1 Output Signal Interface Levels
The serial digital outputs of the GS2986 are compatible when DC-coupled with all Gennum
serial digital interface products that feature a differential LVPECL or CML receiver designed for
SDI applications and operate from 3.3V or 2.5V supplies. This includes but is not limited to:
GS2978, GS2988, and GS2989.
The serial digital data inputs are also compatible when DC-coupled with LVPECL or CML
differential outputs from crosspoint switches which operate from 3.3V or 2.5V supplies. This
includes but is not limited to: GS2974A, GS2974B, and GS2984 equalizers.
4.9.2 Adjustable Output Swing
It is possible, via the host interface, to force the output swing to 400mVpp or 800mVpp
differential, when the outputs are terminated with 50Ω loads.
The default output swing upon power-up is 400mVpp differential.
4.9.3 Output De-emphasis
The GS2986 features adjustable output de-emphasis to compensate for PCB trace dielectric
losses.
The output de-emphasis has eight settings, evenly distributed from a minimum of 0dB (output
de-emphasis OFF) to a peak de-emphasis setting that is optimized for compensating the
high-frequency losses associated with approximately 20 inches of 5-mil stripline in FR4
material. These settings are accessible via the serial host interface.
The action of the de-emphasis settings is to attenuate the trailing edge of the output data
waveform relative to the output swings set through the host interface.
De-emphasis is turned OFF when in Bypass mode.
The default de-emphasis setting upon power-up is 0dB (OFF).
NOTE: Changing the de-emphasis setting will vary both V1 & V2 (see Figure 4-2).
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Tx signal after de-emphasis
0.6
V1
0.4
V2
Volts
0.2
0
De-emphasis (dB)
=20 log (V1/V2)
-V2
-0.2
-0.4
-0.6
-V1
11110000 pattern
268
269
270
271
272
273
274
275
UI
Figure 4-2: De-emphasis Waveform
4.10 Automatic and Manual Data Rate Selection
The GS2986 can be configured to manually lock to a specific data rate or automatically search
for and lock to the incoming data rate. The default configuration is AUTO mode. This can be
changed via the host interface.
In AUTO mode, the SS[1:0] registers become read only, and the bit pattern indicates the data rate
at which the PLL is currently locked to (or previously locked to). The search algorithm cycles
through the data rates and starts over if that data rate is not found (see Figure 4-3).
A “search algorithm” cycles through the supported data rates until lock is achieved, as shown in
Figure 4-3 below.
Power up
270Mb/s
1485Mb/s
2970Mb/s
*Note: the search algorithm does not necessarily begin with 270Mb/s.
Figure 4-3: GS2986 Automatic Mode Search Algorithm
In MANUAL mode, the SS[1:0] registers become read or write pins become inputs and the data
rate can be programmed. In this mode, the search algorithm is disabled and the GS2986's PLL
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will only lock to the data rate selected in accordance with Table 4-7.
Table 4-7: Data Rate Indication/Selection Bit Pattern
SS[1:0]
Data Rate (Mb/s)
0
Reserved
1
270
2
1485 or 1485/1.001
3
2970 or 2970/1.001
4.11 SD/HD Indication
The SD/HD signal indicates the output data rate of the device and can be connected to the
SD/HD input pin of dual slew rate cable drivers such as the GS2988.
When this signal is HIGH, the data rate is 270Mb/s. This signal is LOW for all other data rates.
This signal is also LOW when the device is operating in bypass mode (Auto-bypass and
User-bypass).
The SD/HD signal is LOW when the device is not locked.
4.12 Bypass Mode
In bypass mode, the GS2986 passes the data at the inputs, directly to the output. There are two
register bits that control the bypass function: BYPASS and AUTOBYPASS.
The BYPASS bit is an active-high signal which forces the GS2986 into bypass mode for as long
as the bit is asserted HIGH.
The AUTOBYPASS bit is an active-high signal that places the GS2986 into bypass mode only
when the PLL has not locked to a data rate.
Table 4-8: Bypass Modes
Bypass
Autobypass
Device Operation
HIGH
X
Bypass Mode
LOW
HIGH
Bypass Mode if the PLL has not
locked to a data rate
LOW
LOW
Power-up default. Normal
Operation, part always tries to
lock to the incoming data
stream.
Note that if BYPASS is HIGH, this will override the AUTOBYPASS functionality.
When the GS2986's PLL is not locked and BYPASS = LOW and AUTOBYPASS = LOW, the serial
digital output DDO/DDO will produce invalid data.
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The AUTOBYPASS function will bypass unsupported (non-reclocked) SMPTE SDI signal rates
without producing bit errors: 143Mb/s, 177Mb/s, 360Mb/s, 540Mb/s.
4.13 DVB-ASI
The GS2986 also reclocks DVB-ASI signals at 270Mb/s. In auto mode, the device will
automatically lock to the incoming 270Mb/s signal. In manual mode, the SS[1:0] pins must be set
to 01 (270Mb/s) to ensure proper operation.
4.14 Output Mute and Data/Clock Output Selection
The DATA_MUTE register is provided to allow muting of the serial digital data output.
Setting DATA_MUTE = LOW will force the serial digital outputs DDO/DDO to mute (statically
latch HIGH) under all conditions and operating modes.
The DDO1_DISABLE pin is provided to allow the second data/clock output to be powered
down.
When DDO1_DISABLE is set LOW, the serial digital clock outputs DDO1/RCO and DDO1/RCO
are muted and the driver is powered-down.
The DATA/CLOCK register is provided to allow the second output to emit a copy of the
reclocked serial data or the recovered clock. In Legacy mode, the default is DATA output.
Table 4-9: Configuration of GS2986 Output Drivers and Mute/Disable Pins
DATA_MUTE
DDO1_DISABLE
DATA/CLOCK
DDO0
DDO1/RCO
1
1
0
DATA
CLOCK
1
1
1
DATA
DATA
0
1
0
MUTE
CLOCK
0
1
1
MUTE
MUTE
1
0
X
DATA
Power down
0
0
X
MUTE
Power down
4.15 Host Interface
4.15.1 Introduction
The GS2986 offers a Serial Peripheral Interface (SPI) to access advanced features and
programmability. The polarity of the HIF pin tells the GS2986 whether or not the host interface
is active (HIF = 0) or in legacy mode (HIF = 1).
Using the host interface, it is possible to override the control pin settings, and such settings will
persist until the device has been powered-down and/or reset. The host interface is capable of
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reading hard-wired pin configuration, pin override settings and the values of all status
monitoring pins.
There is an optional 3-state feature available in the Control Status Registers (CSR) that
puts the SPI SDO to high-impedance when it’s not being used (Register: TOP_1, bit: 2).
The maximum operating speed of the SPI is 10MHz.
4.15.2 Legacy Mode & Start-up
In legacy mode, basic configuration of the device including a subset of equalizer settings
are available at the pin level. In this mode, register settings are automatically set to
default so that the IC is live at power-up.
4.15.3 Host Interface Mode & Start-up
In host interface mode, the user gains access to Control and Status Registers (CSRs) that
manage advanced features. In this mode, equalizer and de-emphasis settings are set
through the CSR.
The SPI control port is functional at start-up without the need for a separate, external
reset signal. However, all internal registers must be set to their default state by issuing a
required Reset Command via the SPI.
This is done by setting the R bit (reset) LOW in the command word. This will guarantee
the CSR will not start up in a random state.
A simple way to issue the required reset of the CSR is to hold the slave device’s SDI input
LOW for an entire 64 cycle WRITE communication. Details of the WRITE operation are
found in section 4.15.6 below.
4.15.4 Clock & Data Timing
The SPI signals are Serial Data Input (SDI), Serial Data Output (SDO), active-low Chip
Select (CS), and Serial Clock Input (SCK). The host interface operates in SPI Mode 0, i.e.
the SDI input will latch data in on the rising edge of SCK. The SDO data output will
transition on falling edges of SCK. Data is transmitted or received on the SPI port MSB
first LSB last.
SCK
CS
Cycle #
SDI
SDO
1
2
3
4
5
6
7
8
z
1
2
3
4
5
6
7
8
z
z
1
2
3
4
5
6
7
8
z
Figure 4-4: Data Clock Alignment
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4.15.5 Single Device Operation
For applications with a single device or applications with multiple devices where daisy
chaining is not desired, the chain position bits C[6:0] should always be set to 0. As a
by-product of the daisy chaining feature, Read and Write operations experience a 32
SCK cycle latency from SDI to SDO. For more details on daisy-chaining, refer to
Section 4.15.8 on page 29.
rw
0
R
A[4:0]
C N[6:0] = `0000000’
Reset
Address
Chain Position
0
Read/
Write
Figure 4-5: 16-bit Command Format
4.15.6 Write Operation - Single Device
A Write operation consists of a 16-bit command word and a 16-bit data word, followed
by 32 cycles with the slave SDI held HIGH. When writing to a single non-daisy chained
device, the following format should be used:
16 bit command
rw
R/W
0
R
A[4:0]
C[6:0] = 0
Reset
Address
Chain Position
0
CS
MOSI
Command
Command [15:0]
Data [15:0]
[15:0]
MISO
Data High 32 cycles
Command’ [15:0]
Data [15:0]
Figure 4-6: Single Device Write
1. At power-up, the device should be reset by setting the R bit LOW. A simple way to
accomplish a reset is to hold the slave SDI line low for an entire 64 cycle
communication.
2. For a Write operation, the r/w bit should be set to 0.
3. The 2nd and 3rd bits are reserved and should be set to 0.
4. The R bit should always be set HIGH for a normal Write operation.
5. Refer to the Register Map for information on Address and Data bits.
6. The slave SDI line should be held HIGH for 32 cycles before de-asserting CS.
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4.15.7 Read Operation - Single Device
For Reading from a device the following format should be used:
16 bit command
rw
R/W
0
R
A[4:0]
C[6:0] = 0
Reset
Address
Chain Position
0
CS
MOSI
Command [15:0]
Data High 16 cycles
MISO
Data High 16 cycles
Data High 16 cycles
Command’ [15:0]
Data [15:0]
Figure 4-7: Single Device Read
1. For a Read operation, the r/w bit should be set to 1.
2. The 2nd and 3rd bits are reserved and should be set to 0.
3. The R bit should always be set HIGH for a normal Read Operation.
4. Data Out at the slave SDO will appear after holding the slave SDI line HIGH for 32
cycles.
5. The 16-bit data is now available on the slave SDO line.
Detailed timing diagrams for Write and Read can be seen in Figure 4-8 and Figure 4-9.
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R/W
0
0
t3
R
t1
A4
A3
t2
A2
A1
A0
t8
C6
C5
C4
R/W
0
t3
0
R
t1
A4
A3
t2
A2
A1
A0
t8
C6
C5
t6
t7
t8
Output hold time (15pF load)
CS_n HIGH after last HOST_CLK rising edge
Input data hold time
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t3
Input data setup time
D8
t2
D9
HOST_CLK duty cycle
C0
D10
t1
C1
D15 D14 D13 D12 D11
HOST_CLK period
C0
t0
C2
C1
CS_n LOW before HOST_CLK rising edge
C3
C2
Symbol
C4
C3
Parameter
Table 4-10: GSPI Time Delay
Figure 4-9: SPI Read Timing
32 cycles
delayed
SDO
SDI
CS
SCK
t0
Figure 4-8: SPI Write Timing
32 cycles
delayed
SDO
SDI
CS
SCK
t0
D7
D6
D5
D4
D2
D1
D0
R/W
0
50% levels
Conditions
D3
0
t6
R/W
R
0
A4
R
A4
A1
A0
−
−
−
−
−
−
−
−
1.5
1.5
1.5
C1
60
C2
1.5
C0
D9
D8
D7
ns
ns
ns
ns
%
ns
ns
Units
D15 D14 D13 D12
D13 D12 D11 D10
50
C3
D15 D14
40
C4
C0
−
C5
C1
−
C6
C2
100
A0
C3
−
A1
C4
−
A2
C5
Max
A3
C6
Typ
Min
A2
75% of
HOST_CLK
period
0
A3
D11
D6
D10
D5
D9
D4
D8
D3
D7
D2
D6
D1
D5
D0
t7
D4
D3
D2
D1
28 of 41
D0
4.15.8 Daisy Chain Operation
For applications with multiple GS2986 devices, it is possible to daisy-chain up to 127 parts in
serial. In this configuration, the first device SDI should be connected to the SPI Master SDO. The
serial data output of each device is then connected to the serial data input of the following
device, and so on. The last device's SDO connects to the Master's SDI. Connecting devices in
serial reduces the number of I/O ports required by the master by removing the need for
additional chip select lines.
SPI
Master
SCK
SDO
SDI
CS
SCK
SDI
SDO
CS
SPI
Slave
Chain Position 0
SCK
SDI
SDO
CS
SPI
Slave
Chain Position 1
SCK
SDI
SDO
CS
SPI
Slave
Chain Position 2
Figure 4-10: Daisy Chained SPI Bus
The position of each GS2986 device in the serial chain is referred to as its Chain Position, with 0
corresponding to the first device. The Chain Position in the SPI command word is decoded by
each slave to know which device the master is talking to.
Each GS2986 slave is designed to output a replica of what it receives at its input after a delay of
32 cycles. The Chain Position part of the command is decremented by one in the duplicated
command word at the output. Each device in the chain will only execute the issued command
if it verifies that the current chain position is set to 0.
A[4:0]
C[6:0]=N
Chain Position
A[4:0]
C[6:0]=N-1
Chain Position
-1
32 cycles
A[4:0]
32 cycles
SDI
SDO
GS2986
SDI
SDO
C[6:0]=N-2
Chain Position
-2
GS2986
Figure 4-11: Chain Position Decoding
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4.15.9 Read & Write Operation - Daisy Chained Devices
In a serial daisy chain configuration, Read and/or Write operations can be performed to
multiple devices in the chain via consecutive operations. Figure 4-12 below shows a simple 3
device configuration.
MISO
MOSI
µC
SDI
SDO
GS2986
SDI
SDO
GS2986
SDI
SDO
GS2986
Figure 4-12: Three Devices in Daisy Chain Configuration
4.15.10 Writing to all Devices
When writing to all devices in the chain, a Write Command and corresponding Data is required
for each device. When the devices are being configured in the same way, all of them will have
the same command and data with the exception of the Chain Position bits. This example
assumes a 3-device daisy chain. A command is issued to the last device in the chain first,
although it is possible to talk to the devices in any order.
CS
MOSI
Command2 [15:0]
Data [15:0]
Command1 [15:0]
Data [15:0]
Command0 [15:0]
Data [15:0]
Data High 32 cycles
Chain Position = 2
Chain Position = 1
Chain Position = 0
MISO
Command0' [15:0]
Data [15:0]
Figure 4-13: Daisy Chain Write
1. The first command issued in time is the command for the last device in the chain (chain
position = 2). When the first device receives this command it will recognize that the Chain
Position is 2 and will not execute the command. It will duplicate the command and data
word at its output and decrement the Chain Position by one.
2. Consecutive commands are issued for each device in the chain as shown.
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4.15.11 Writing to a Single Device in the Chain
The following example shows how to write to a single device in a chain:
CS
MOSI
CommandN [15:0]
DataN [15:0]
Data High 32xN cycles
Data High 32 cycles
Chain Position = N
MISO
CommandN’ [15:0]
DataN [15:0]
Chain Position = N (N = 0 for first device in chain)
Figure 4-14: Daisy Chain Write to a Single Device
1. The command is issued to Chain Position N.
2. 32xN cycles are required to shift the command through N devices. The device at
chain position N executes the command.
3. 32 additional cycles are needed to complete the communication.
4.15.12 Reading from all Devices
To read from all devices in the chain, a Read command is issued for each device
consecutively. After each command, the data is held HIGH for 16 cycles. Once a device
recognizes it is being talked to, it will output data from the register requested. Clock
needs to be applied to cycle the output data through all devices in the chain.
CS
SDI
Command 2
Data HIGH for
16 cycles
(Chain Position = 2)
Command 1
Data HIGH for
16 cycles
Command 0
Data HIGH for
16 cycles
(Chain Position = 0)
(Chain Position = 1)
SDO
CS
SDI
Data held
HIGH for 32x3
cycles
SDO
Command2’
Data2
Command1’
Data1
Command0’
Data0
Figure 4-15: Daisy Chain Read
1. Read command is issued to the last device in the chain, followed by Read
commands to the lower chain positions.
2. Clock is applied to cycle the output data through the chain.
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3. Command2’ refers to the altered or decremented Command2.
4.15.13 Reading from a Single Device in the Chain
The following example shows how to read from a single device in a chain:
CS
MOSI
CommandN [15:0]
Data High 16 cycles
Data High 32xN cycles
Data High 32x(K-N-1) cycles
Data High 16 cycles
Data High 16 cycles
CommandN’ [15:0]
DataN [15:0]
Chain Position = N
MISO
Chain Position = N (N = 0 for first device in chain)
Chain Length = K (K ≥ 1)
Figure 4-16: Daisy Chain Read from a Single Device
1. Read command and 16 cycles of data held HIGH are issued to chain position N.
2. 32xN cycles are applied with data HIGH to cycle the command through N devices in the
chain (NOTE: N is 0 for first device in chain). Device N executes the command.
3. With K representing the total number of devices in the chain, 32x(K-N-1) cycles are applied
to bring the return data through the rest of the chain.
4. 16 additional cycles are applied until the Data from device N is available on the Master SDI.
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4.15.14 Host Register Map
Table 4-11: Host Register Map
Register
Name
Register
Address
Bit
Position
Access
Function
Default
Value
Valid
Range
Comments
EQ_1
0x00
15:10
RW
Reserved.
9
RW
Input Attenuation Enable
(ATTEN_EN)
0x0
0 or 1
Enable for input
signals above
1Vpp differential
8
RW
Equalizer Offset Correction Enable
0x1
0 or 1
Recommend
always on
7
RW
Equalizer Gain Setting for DDI3
0x0
0 or 1
See
supplementary
table below
6
RW
Equalizer Gain Setting for DDI2
0x0
0 or 1
See
supplementary
table below
5
RW
Equalizer Gain Setting for DDI1
0x00
0 or 1
See
supplementary
table below
4
RW
Equalizer Gain Setting for DDI0
0x00
0 or 1
See
supplementary
table below
3
RW
Equalizer Enable for DDI3
0x00
0 or 1
See
supplementary
table below
2
RW
Equalizer Enable for DDI2
0x00
0 or 1
See
supplementary
table below
1
RW
Equalizer Enable for DDI1
0x00
0 or 1
See
supplementary
table below
0
RW
Equalizer Enable for DDI0
0x00
0 or 1
See
supplementary
table below
Equalizer Decode Logic
EQ_EN
EQ_GAIN
EQ Setting
Recommended Trace Lengths
0
0
LOW
0 to 10 inches of FR4
0
1
LOW
0 to 10 inches of FR4
1
0
MED
10 to 20 inches of FR4
1
1
HIGH
20 or more inches of FR4
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Table 4-11: Host Register Map (Continued)
Register
Name
Register
Address
Bit
Position
Access
DRIVER_1
0x01
15:10
RW
9
Function
Default
Value
Valid
Range
Comments
Unused
0x0
0 or 1
−
RW
Amplitude Control for DDO1
0x1
0 or 1
0 = 800mV swing
1 = 400mV swing
8
RW
Amplitude Control for DDO0
0x1
0 or 1
0 = 800mV swing
1 = 400mV swing
7:5
RW
De-Emphasis Boost Amplitude
Control for DDO1
0x2
0x0 to
0x7
0x0 = Lowest
Setting
0x7 = Highest
Setting
4:2
RW
De-Emphasis Boost Amplitude
Control for DDO0
0x2
0x0 to
0x7
0x0 = Lowest
Setting
0x7 = Highest
Setting
1
RW
De-Emphasis Enable for DDO1
0x0
0 or 1
1 = Enabled
0 = Disabled
0
RW
De-Emphasis Enable for DDO0
0x0
0 or 1
1 = Enabled
0 = Disabled
TOP_1
0x02
15:9
RW
Reserved.
8:7
RW
LOS Threshold Adjust
0x0
0x0 to
0x3
0x0 = least
sensitive
0x3 = most
sensitive
6:5
RW
LOS Detection Method Select
0x0
0x0 to
0x2
0x0 = legacy edge
detectionmethod
0x1 = new signal
strength
detectionmethod
0x2 = dual
detection
method: both
must say signal
present for LOS to
be LOW
4
RW
LOS Mute Enable
0x0
0 or 1
When enabled
the output will
automatically
mute if Loss of
Signal is HIGH
3
RW
Power Down
0x0
0 or 1
Chip powers
down when
asserted
2
RW
Tri-State Enable for SPI Output
0x0
0 or 1
When enabled
the SPI SDO will
be high Z when
CS is not selected
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Table 4-11: Host Register Map (Continued)
Register
Name
Register
Address
Bit
Position
Access
TOP_1
0x02
1
RW
0
0X03 to 0X0B
PIN_OR_1
STATUS_1
0x0C
0X0D
0X0E to 0X11
Function
Default
Value
Valid
Range
Comments
Crystal Buffer Disable
0x0
0 or 1
0 = Enabled
1 = Disabled
RW
Data Polarity Invert
0x0
0 or 1
0 = Not Inverted
1 = Inverted
15:13
RW
Unused
0x0
0 or 1
−
12
RW
DATA/CLOCK
0x0
0 or 1
−
11
RW
DDO1_DIASBLE
0x0
0 or 1
−
10
RW
DATA_MUTE
0x0
0 or 1
−
9:8
RW
KBB
0x0
0x0,
0x2 or
0x3
Equivalent
settings:
0x0 = KBB to
ground
0x2 = KBB
floating
0x3 = KBB to VCC
7
RW
SS1
0x0
0 or 1
−
6
RW
SS0
0x0
0 or 1
−
5
RW
AUTO/MAN
0x0
0 or 1
−
4
RW
AUTOBYPASS
0x0
0 or 1
−
3
RW
BYPASS
0x0
0 or 1
−
2
RW
DDI_SEL1
0x0
0 or 1
−
1
RW
DDI_SEL0
0x0
0 or 1
−
0
RW
Pin Override Enable
0x0
0 or 1
When enabled
input values will
be taken from this
register instead of
package pins
15:4
RO
Reserved.
−
−
−
3
RO
SD/HD
−
−
−
2
RO
LOCKED
−
−
−
1
RO
SS1
−
−
−
0
RO
SS0
−
−
−
Reserved.
Reserved.
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4.16 Device Power-up
In host mode (HIF pin tied LOW), control & status registers (CSRs) may start up in a random state.
There is a bit in the command word R which will reset the CSR when set LOW.
In non-host mode (HIF pin tied HIGH), the HIF pin is used to trigger an internal reset signal to
place all registers in a deterministic, default state upon power-up.
In either host mode or non-host mode, other internal state machines (e.g. offset correction and
PLL) automatically recover from any state at start-up with no reset required. It takes ~10μs for
the device to lock after start-up.
4.17 Standby
The purpose of Standby mode is to allow operating power to be reduced when the device's
functionality is not required, and to have a rapid and simple transition to full operation when
the device is required.
In order to achieve this, the device can be powered-down by writing a ‘1’ to the ‘Power Down’
bit located in register address 0x02.
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18p
CS/EQ3_EN
GND
XTAL_BUF_OUT
27MHz
1M
HIF 3
31
32
XTAL-
XTAL+
33
CS/EQ3_EN 34
SCK/EQ2_EN 35
SDO/EQ1_EN 36
SDI/EQ0_EN 37
39
38
VEE_CP
VEE_DDO0
VCC_DDO0
HIF
DDO0
4
DDI0
DDO0
5
DDI1
6
VEE_DDO1
GS2986
VCC_DDO1
DDI1
30
29
28
25
24
DDO1/RCO
DDI2
DDO1/RCO 23
9
DDI3
10
DDI3
VSS_DIG
10n
GND
Data Output 0
VCC
GND
10n
Data Output 1/
Serial Clock
22
21
GND
SD/HD
20
LOS
LOCKED
220n
DDI_SEL1
DDI_SEL0
10u
VCC
VDD_DIG
VCC
10n
1u
19
LOS
LOCKED
17
18
VDD_1P8
16
VEE_VCO
15
11
VCC_VCO
DDI2
SD/HD
GND
10n
26
8
DDO1_DISABLE
VCC
27
7
RSVD
Data Input 3
DDI0
14
Data Input 2
2
DDI_SEL1
Data Input 1
CP_CAP
13
Data Input 0
1
DDI_SEL0
GND
12
220n
VCC_CP
LF+
40
10n
DDO1_DISABLE
VCC
18p
SCK/EQ2_EN
SDI/EQ0_EN
47n
GND
SDO/EQ1_EN
5. Typical Application Circuit
R*
GND
Note: R* value is set to 267Ω for 2.5v supply or 422Ω for 3.3v supply.
Figure 5-1: GS2986 Typical Application Circuit
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6. Package and Ordering Information
6.1 Package Dimensions
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6.2 Recommended PCB Footprint
0.28
0.5
0.85
4.5
5.1 5.95 6.8
4.5
0.25
5.1
6.8
NOTE: All dimensions
are in millimeters.
6.3 Packaging Data
Parameter
Value
Package Type
6mm x 6mm 40-pin QFN
Moisture Sensitivity Level
3
Junction to Case Thermal Resistance, θj-c
19.9°C/W
Junction to Air Thermal Resistance, θj-a (at zero
airflow)
34.9°C/W
Junction to Board Thermal Resistance, θj-b
12.5°C/W
Psi, ψ
0.5°C/W
Pb-free and RoHS Compliant
Yes
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6.4 Marking Diagram
Pin 1 ID
GS2986
XXXXE3
YYWW
XXXX - Last 4 digits (excluding decimal)
of SAP Batch Assembly (FIN) as listed
on Packing Slip.
E3 - Pb-free & Green indicator
YYWW - Date Code
6.5 Solder Reflow Profile
Temperature
60-150 sec.
20-40 sec.
260°C
250°C
3°C/sec max
217°C
6°C/sec max
200°C
150°C
25°C
Time
60-180 sec. max
8 min. max
Figure 6-1: Maximum Pb-free Solder Reflow Profile
6.6 Ordering Information
Part Number
Package
Temperature Range
GS2986
GS2986-INE3
Pb-free 40-pin QFN
-40°C to 85°C
GS2986
GS2986-INTE3
Pb-free 40-pin QFN
(250pc. tape and reel)
-40°C to 85°C
GS2986
GS2986-INTE3Z
Pb-free 40-pin QFN
(2.5k tape and reel)
-40°C to 85°C
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DOCUMENT IDENTIFICATION
CAUTION
DATA SHEET
ELECTROSTATIC SENSITIVE DEVICES
Information relating to this product and the application or design described
herein is believed to be reliable, however such information is provided as a
guide only and Semtech assumes no liability for any errors in this document, or
for the application or design described herein. Semtech reserves the right to
make changes to the product or this document at any time without notice.
DO NOT OPEN PACKAGES OR HANDLE EXCEPT AT A
STATIC-FREE WORKSTATION
© Semtech 2012
All rights reserved. Reproduction in whole or in part is prohibited without the prior written consent of the copyright
owner. The information presented in this document does not form part of any quotation or contract, is believed to be
accurate and reliable and may be changed without notice. No liability will be accepted by the publisher for any
consequence of its use. Publication thereof does not convey nor imply any license under patent or other industrial or
intellectual property rights. Semtech assumes no responsibility or liability whatsoever for any failure or unexpected
operation resulting from misuse, neglect improper installation, repair or improper handling or unusual physical or
electrical stress including, but not limited to, exposure to parameters beyond the specified maximum ratings or
operation outside the specified range.
SEMTECH PRODUCTS ARE NOT DESIGNED, INTENDED, AUTHORIZED OR WARRANTED TO BE SUITABLE FOR USE IN
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Notice: All referenced brands, product names, service names and trademarks are the property of their respective owners.
Contact Information
Semtech Corporation
Gennum Products Division
200 Flynn Road, Camarillo, CA 93012
Phone: (805) 498-2111, Fax: (805) 498-3804
www.semtech.com
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