GENNUM GS1560A_09

GS1560A/GS1561 HD-LINX® II Dual-Rate Deserializer
Key Features
Description
•
SMPTE 292M and SMPTE 259M-C compliant
descrambling and NRZI → NRZ decoding (with bypass)
•
DVB-ASI 8b/10b decoding
•
auto-configuration for HD-SDI and SD-SDI
•
serial loop-through cable driver output selectable as
reclocked or non-reclocked (GS1560A only)
•
dual serial digital input buffers with 2 x 1 mux
•
integrated serial digital signal termination
•
integrated reclocker
•
automatic or manual rate selection / indication
(HD/SD)
•
descrambler bypass option
•
user selectable additional processing features
including:
The GS1560A/GS1561 is a reclocking deserializer. When
used in conjunction with the GS1524 Automatic Cable
Equalizer and the GO1555/GO1525* Voltage Controlled
Oscillator, a receive solution can be realized for HD-SD,
SD-SDI and DVB-ASI applications.
In addition to reclocking and deserializing the input data
stream, the GS1560A/GS1561 performs NRZI-to-NRZ
decoding, descrambling as per SMPTE 259M-C/292M, and
word alignment when operating in SMPTE mode. When
operating in DVB-ASI mode, the device will word align the
data to K28.5 sync characters and 8b/10b decode the
received stream.
Two serial digital input buffers are provided with a 2x1
multiplexer to allow the device to select from one of two
serial digital input signals.
The integrated reclocker features a very wide Input Jitter
Tolerance of ±0.3 UI (total 0.6 UI), a rapid asynchronous
lock time, and full compliance with DVB-ASI data streams.
The GS1560A includes an integrated cable driver is for
serial input loop-through applications. It can be selected to
output either buffered or reclocked data. The cable driver
also features an output mute on loss of signal, high
impedance mode, adjustable signal swing, and automatic
dual slew-rate selection depending on HD/SD operational
requirements.
The GS1560A/GS1561 also includes a range of data
processing functions such as error detection and
correction, automatic standards detection, and EDH
support. The device can also detect and extract SMPTE
352M payload identifier packets and independently
identify the received video standard. This information is
read from internal registers via the host interface port.
Line-based CRC errors, line number errors, TRS errors, EDH
CRC errors and ancillary data checksum errors can all be
detected.
Finally, the device can correct detected errors and insert
new TRS ID words, line-based CRC words, ancillary data
checksum words, EDH CRC words, and line numbers.
Illegal code re-mapping is also available. All processing
functions may be individually enabled or disabled via host
interface control.
The GS1560A/GS1561 is Pb-free and the encapsulation
compound does not contain halogenated flame retardant.
This component and all homogeneous subcomponents are
RoHS compliant.
*For new designs use GO1555
•
•
•
•
CRC, TRS, ANC data checksum, line number and EDH
CRC error detection and correction
programmable ANC data detection
illegal code remapping
internal flywheel for noise immune H, V, F extraction
•
FIFO load Pulse
•
20-bit / 10-bit CMOS parallel output data bus
•
148.5MHz / 74.25MHz / 27MHz / 13.5MHz parallel
digital output
•
automatic standards detection and indication
•
Pb-free and RoHS Compliant
•
1.8V core power supply and 3.3V charge pump power
supply
•
3.3V digital I/O supply
•
JTAG test interface
•
small footprint compatible with GS9060, GS1532, and
GS9062
Applications
•
•
•
SMPTE 292M Serial Digital Interfaces
SMPTE 259M-C Serial Digital Interfaces
DVB-ASI Serial Digital Interfaces
GS1560A/GS1561 HD-LINX® II Dual-Rate Deserializer
Data Sheet
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June 2009
www.gennum.com
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Functional Block Diagrams
20bit/10bit
IOPROC_EN/DIS
FW_EN/DIS
F
V
H
DVB_ASI
MASTER/SLAVE
SMPTE_BYPASS
SD/HD
LOCKED
PCLK
RC_BYP
CP_CAP
VCO
VCO
LB_CONT
LF
VCO_VCC
VCO_GND
IP_SEL
CD1
carrier_detect
CD2
rclk_ctrl
LOCK detect
pll_lock
smpte_sync_det
asi_sync_det
TERM 1
DDI_1
DDI_1
Reclocker
SMPTE Descramble, Word
alignment and
flywheel
DATA_ERROR
CRC check
Line number
check
TRS check
CSUM check
ANC data
detection
S->P
TERM 2
DDI_2
DVB-ASI
word alignment
and
8b/10b decode
DDI_2
(o/p mute)
pll_lock
CRC correct
Line number
correct
TRS correct
CSUM correct
EDH check &
correct
Illegal code remap
DOUT[19:0]
I/O
Buffer
& mux
rclk_bypass
FIFO_LD
CANC
YANC
SDO_EN/DIS
SDO
SDO
Reset
HOST Interface / JTAG
test
RSET
JTAG/HOST
CS_TMS
SCLK_TCK
SDIN_TDI
SDOUT_TDO
RESET_TRST
GS1560A Functional Block Diagram
20bit/10bit
IOPROC_EN/DIS
FW_EN/DIS
F
V
H
DVB_ASI
SMPTE_BYPASS
SD/HD
MASTER/SLAVE
LOCKED
PCLK
CP_CAP
VCO
VCO
LB_CONT
LF
VCO_VCC
VCO_GND
IP_SEL
CD1
carrier_detect
CD2
rclk_ctrl
pll_lock
LOCK detect
smpte_sync_det
asi_sync_det
TERM 1
DDI_1
DDI_1
Reclocker
TERM 2
SMPTE Descramble, Word
alignment and
flywheel
S->P
DDI_2
DVB-ASI
word alignment
and
8b/10b decode
DDI_2
DATA_ERROR
CRC check
Line number
check
TRS check
CSUM check
ANC data
detection
CRC correct
Line number
correct
TRS correct
CSUM correct
EDH check &
correct
Illegal code remap
DOUT[19:0]
I/O
Buffer
& mux
FIFO_LD
CANC
YANC
Reset
HOST Interface / JTAG
test
JTAG/HOST
CS_TMS
SCLK_TCK
SDIN_TDI
SDOUT_TDO
RESET_TRST
GS1561 Functional Block Diagram
GS1560A/GS1561 HD-LINX® II Dual-Rate Deserializer
Data Sheet
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June 2009
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Revision History
Version
ECR
PCN
Date
Changes and / or Modifications
12
152053
–
June 2009
Removed ‘Proprietary & Confidential’ from the footer.
11
150195
50711
July 2008
DVB_ASI operation specification change in Master mode.
10
143666
42774
January 2007
Recommended the new GO1555 VCO for new designs.
9
140423
39452
May 2006
Corrected minor typing errors in Functional Block Diagram. Modified
video format numbers for system 1125 on Table 4-4: Switch Line
Position for Digital Systems.
8
137405
–
September 2005
Conversion to Data Sheet. Added note on max device power and
current to Table 2-1: DC Electrical Characteristics. Corrected Solder
Reflow Profile labels.
7
136978
–
June 2005
Restored missing overlines to pin names. Corrected missing TERM pin
in Serial Digital Input connection diagram. Rephrased RoHS
compliance statement.
6
134906
–
April 2005
Added Solder Reflow Profile description. Clarified setting of
VD_STD[4:0], INT_PROG and STD_LOCK bits following a reset and/or
removal of input. Minor correction to Typical Application Circuits for
both parts. Added DVB-ASI Packet Counter information. Added
Packaging Data section. Changed ‘Green’ references to RoHS
Compliant.
Contents
Key Features ........................................................................................................................................................1
Applications.........................................................................................................................................................1
Description...........................................................................................................................................................1
Functional Block Diagrams ............................................................................................................................2
1. Pin Out...............................................................................................................................................................6
1.1 Pin Assignment GS1560A ...............................................................................................................6
1.2 Pin Assignment GS1561 ..................................................................................................................7
1.3 Pin Descriptions .................................................................................................................................8
2. Electrical Characteristics ......................................................................................................................... 19
2.1 Absolute Maximum Ratings........................................................................................................ 19
2.2 DC Electrical Characteristics ...................................................................................................... 19
2.3 AC Electrical Characteristics ...................................................................................................... 21
3. Input/Output Circuits ............................................................................................................................... 24
3.1 Host Interface Map......................................................................................................................... 26
3.1.1 Host Interface Map (R/W Configurable Registers) ................................................. 27
3.1.2 Host Interface Map (Read Only Registers) ................................................................ 28
4. Detailed Description.................................................................................................................................. 29
GS1560A/GS1561 HD-LINX® II Dual-Rate Deserializer
Data Sheet
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4.1 Functional Overview..................................................................................................................... 29
4.2 Serial Digital Input ......................................................................................................................... 30
4.2.1 Input Signal Selection ...................................................................................................... 30
4.2.2 Carrier Detect Input.......................................................................................................... 30
4.2.3 Single Input Configuration............................................................................................. 30
4.3 Serial Digital Reclocker ................................................................................................................ 31
4.3.1 External VCO ...................................................................................................................... 31
4.3.2 Loop Bandwidth................................................................................................................. 31
4.4 Serial Digital Loop-Through Output (GS1560A only)......................................................... 31
4.4.1 Output Swing ...................................................................................................................... 32
4.4.2 Reclocker Bypass Control ............................................................................................... 33
4.4.3 Serial Digital Output Mute.............................................................................................. 33
4.5 Serial-To-Parallel Conversion .................................................................................................... 34
4.6 Modes Of Operation ...................................................................................................................... 34
4.6.1 Lock Detect .......................................................................................................................... 34
4.6.2 Master Mode........................................................................................................................ 35
4.6.3 Slave Mode........................................................................................................................... 36
4.7 SMPTE Functionality ..................................................................................................................... 36
4.7.1 SMPTE Descrambling and Word Alignment ............................................................ 37
4.7.2 Internal Flywheel .............................................................................................................. 37
4.7.3 Switch Line Lock Handling............................................................................................. 38
4.7.4 HVF Timing Signal Generation ..................................................................................... 42
4.8 DVB-ASI Functionality ................................................................................................................. 44
4.8.1 Transport Packet Format................................................................................................. 44
4.8.2 DVB-ASI 8b/10b Decoding and Word Alignment.................................................. 44
4.8.3 Status Signal Outputs ....................................................................................................... 45
4.9 Data Through Mode ....................................................................................................................... 45
4.10 Additional Processing Functions ............................................................................................ 45
4.10.1 FIFO Load Pulse ............................................................................................................... 46
4.10.2 Ancillary Data Detection and Indication ................................................................ 47
4.10.3 SMPTE 352M Payload Identifier ................................................................................ 51
4.10.4 Automatic Video Standard and Data Format Detection.................................... 51
4.10.5 Error Detection and Indication................................................................................... 55
4.10.6 Error Correction and Insertion ................................................................................... 60
4.10.7 EDH Flag Detection ........................................................................................................ 62
4.11 Parallel Data Outputs.................................................................................................................. 64
4.11.1 Parallel Data Bus Buffers .............................................................................................. 64
4.11.2 Parallel Output in SMPTE Mode................................................................................. 65
4.11.3 Parallel Output in DVB-ASI Mode............................................................................. 65
4.11.4 Parallel Output in Data-Through Mode................................................................... 65
4.11.5 Parallel Output Clock (PCLK) ...................................................................................... 66
4.12 GSPI Host Interface...................................................................................................................... 67
4.12.1 Command Word Description ...................................................................................... 67
4.12.2 Data Read and Write Timing ....................................................................................... 68
4.12.3 Configuration and Status Registers........................................................................... 68
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4.13 JTAG.................................................................................................................................................. 69
4.14 Device Power Up.......................................................................................................................... 70
4.15 Device Reset................................................................................................................................... 70
5. Application Reference Design ............................................................................................................... 71
5.1 GS1560A Typical Application Circuit (Part A)...................................................................... 71
5.2 GS1560A Typical Application Circuit (Part B) ...................................................................... 72
5.3 GS1561 Typical Application Circuit (Part A) ......................................................................... 73
5.4 GS1561 Typical Application Circuit (Part B).......................................................................... 74
6. References & Relevant Standards ......................................................................................................... 75
7. Package & Ordering Information .......................................................................................................... 76
7.1 Package Dimensions...................................................................................................................... 76
7.2 Packaging Data................................................................................................................................ 77
7.3 Solder Reflow Profiles................................................................................................................... 77
7.4 Ordering Information.................................................................................................................... 78
GS1560A/GS1561 HD-LINX® II Dual-Rate Deserializer
Data Sheet
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1. Pin Out
IO_VDD
DOUT2
DOUT3
DOUT4
DOUT5
DOUT6
DOUT7
DOUT8
IO_GND
DOUT9
DOUT10
DOUT11
IO_VDD
DOUT12
DOUT13
DOUT14
DOUT15
DOUT16
DOUT17
IO_GND
1.1 Pin Assignment GS1560A
60 59 58 57 56 55 54 53 52 51 50 49 48 47 46 45 44 43 42 41
IO_VDD
61
40
IO_GND
DOUT18
62
39
DOUT1
DOUT19
63
38
DOUT0
CORE_VDD
64
37
CORE_VDD
YANC
65
36
H
CANC
66
35
V
FW_EN/DIS
67
34
F
CORE_GND
68
33
CORE_GND
PCLK
69
32
FIFO_LD
RC_BYP
70
31
DATA_ERROR
MASTER/SLAVE
71
30
SCLK_TCK
LOCKED
72
29
SDIN_TDI
GS1560A
JTAG/HOST
25
RESET_TRST
LF
77
24
SDO
CP_CAP
78
23
SDO
LB_CONT
79
22
CD_GND
80
21
SDO_EN/DIS
CD_VDD
RSET
17 18 19 20
SMPTE_BYPASS
9 10 11 12 13 14 15 16
DDI2
8
TERM2
7
DDI2
6
CD2
5
IOPROC_EN/DIS
4
20bit/10bit
3
SD/HD
2
IP_SEL
1
DVB_ASI
CP_GND
DDI1
26
76
TERM1
75
VCO_VCC
DDI1
VCO_GND
CD1
CS_TMS
BUFF_VDD
SDOUT_TDO
27
PD_VDD
28
74
PDBUFF_GND
73
CP_VDD
VCO
VCO
[
GS1560A/GS1561 HD-LINX® II Dual-Rate Deserializer
Data Sheet
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June 2009
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IO_VDD
DOUT2
DOUT3
DOUT4
DOUT5
DOUT6
DOUT7
DOUT8
IO_GND
DOUT9
DOUT1
DOUT1
IO_VDD
DOUT1
DOUT1
DOUT1
DOUT1
DOUT1
DOUT1
IO_GND
1.2 Pin Assignment GS1561
60 59 58 57 56 55 54 53 52 51 50 49 48 47 46 45 44 43 42 41
IO_VDD
61
40
IO_GND
DOUT18
62
39
DOUT1
DOUT19
63
38
DOUT0
CORE_VDD
64
37
CORE_VDD
YANC
65
36
H
CANC
66
35
V
F
FW_EN/DIS
67
34
CORE_GND
68
33
CORE_GND
PCLK
69
32
FIFO_LD
RSV
70
31
DATA_ERRO
MASTER/SLAVE
71
30
SCLK_TCK
LOCKED
72
29
SDIN_TDI
VCO
73
28
SDOUT_TDO
VCO
74
27
CS_TMS
VCO_GND
75
26
JTAG/HOST
VCO_VCC
76
25
RESET_TRST
LF
GS1561
NC
CP_GND
80
21
NC
GS1560A/GS1561 HD-LINX® II Dual-Rate Deserializer
Data Sheet
27360 - 12
June 2009
NC
NC
SMPTE_BYPASS
17 18 19 20
DDI2
9 10 11 12 13 14 15 16
TERM2
8
DDI2
7
CD2
6
IOPROC_EN/DIS
5
20bit/10bit
4
SD/HD
3
IP_SEL
2
DVB_ASI
1
DDI1
22
DDI1
79
TERM1
LB_CONT
CD1
NC
BUFF_VDD
78
PD_VDD
NC
23
CP_VDD
24
PDBUFF_GND
77
CP_CAP
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1.3 Pin Descriptions
Table 1-1: Pin Descriptions
Pin
Number
Name
Timing
Type
Description
1
CP_VDD
–
Power
Power supply connection for the charge pump. Connect to +3.3V DC
analog.
2
PDBUFF_GND
–
Power
Ground connection for the phase detector and serial digital input
buffers. Connect to analog GND.
3
PD_VDD
–
Power
Power supply connection for the phase detector. Connect to +1.8V DC
analog.
4
BUFF_VDD
–
Power
Power supply connection for the serial digital input buffers. Connect
to +1.8V DC analog.
5
CD1
Non
Synchronous
Input
STATUS SIGNAL INPUT
Signal levels are LVCMOS/LVTTL compatible.
Used to indicate the presence of a serial digital input signal. Normally
generated by a Gennum automatic cable equalizer.
When LOW, the serial digital input signal received at the DDI1 and
DDI1 pins is considered valid.
When HIGH, the associated serial digital input signal is considered to
be invalid. In this case, the LOCKED signal is set LOW and all parallel
outputs are muted.
6, 8
DDI1, DDI1
Analog
Input
Differential input pair for serial digital input 1.
7
TERM1
Analog
Input
Termination for serial digital input 1. AC couple to EQ_GND.
9
DVB_ASI
Non
Synchronous
Input /
Output
CONTROL SIGNAL INPUT / STATUS SIGNAL OUTPUT
Signal levels are LVCMOS/LVTTL compatible.
This pin will be an input set by the application layer in slave mode.
This pin and its function are not supported in Master mode.
Slave Mode (MASTER/SLAVE = LOW)
When set HIGH in conjunction with SD/HD = HIGH and SMPTE_BYPASS
= LOW, the device will be configured to operate in DVB-ASI mode.
When set LOW, the device will not support the decoding or word
alignment of received DVB-ASI data.
10
IP_SEL
Non
Synchronous
Input
CONTROL SIGNAL INPUT
Signal levels are LVCMOS/LVTTL compatible.
Used to select DDI1 / DDI1 or DDI2 / DDI2 as the serial digital input
signal, and CD1 or CD2 as the carrier detect input signal.
When set HIGH, DDI1 / DDI1 is selected as the serial digital input and
CD1 is selected as the carrier detect input signal.
When set LOW, DDI2 / DDI2 serial digital input and CD2 carrier detect
input signal is selected.
GS1560A/GS1561 HD-LINX® II Dual-Rate Deserializer
Data Sheet
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Table 1-1: Pin Descriptions (Continued)
Pin
Number
Name
Timing
Type
11
SD/HD
Non
Synchronous
Input /
Output
Description
CONTROL SIGNAL INPUT / STATUS SIGNAL OUTPUT
Signal levels are LVCMOS/LVTTL compatible.
This pin will be an input set by the application layer in slave mode, and
will be an output set by the device in master mode.
Master Mode (MASTER/SLAVE = HIGH)
The SD/HD signal will be LOW whenever the received serial digital
signal is 1.485Gb/s or 1.485/1.001Gb/s.
The SD/HD signal will be HIGH whenever the received serial digital
signal is 270Mb/s.
Slave Mode (MASTER/SLAVE = LOW)
When set LOW, the device will be configured for the reception of
1.485Gb/s or 1.485/1.001Gb/s signals only and will not lock to any
other serial digital signal.
When set HIGH, the device will be configured for the reception of
270Mb/s signals only and will not lock to any other serial digital signal.
NOTE: When in slave mode, reset the device after the SD/HD input has
been initially configured, and after each subsequent SD/HD data rate
change.
NOTE: This pin has an internal pull-up resistor of 100K.
12
20bit/10bit
Non
Synchronous
Input
CONTROL SIGNAL INPUT
Signal levels are LVCMOS/LVTTL compatible.
Used to select the output data bus width in SMPTE or Data-Through
modes. This signal is ignored in DVB-ASI mode.
When set HIGH, the parallel output will be 20-bit demultiplexed data.
When set LOW, the parallel outputs will be 10-bit multiplexed data.
13
IOPROC_EN/DIS
Non
Synchronous
Input
CONTROL SIGNAL INPUT
Signal levels are LVCMOS/LVTTL compatible.
Used to enable or disable I/O processing features.
When set HIGH, the following I/O processing features of the device are
enabled:
• EDH CRC Error Correction (SD-only)
• ANC Data Checksum Correction
• Line-based CRC Error Correction (HD-only)
• Line Number Error Correction (HD-only)
• TRS Error Correction
• Illegal Code Remapping
To enable a subset of these features, keep IOPROC_EN/DIS HIGH and
disable the individual feature(s) in the IOPROC_DISABLE register
accessible via the host interface.
When set LOW, the I/O processing features of the device are disabled,
regardless of whether the features are enabled in the
IOPROC_DISABLE register.
GS1560A/GS1561 HD-LINX® II Dual-Rate Deserializer
Data Sheet
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June 2009
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Table 1-1: Pin Descriptions (Continued)
Pin
Number
Name
Timing
Type
Description
14
CD2
Non
Synchronous
Input
STATUS SIGNAL INPUT
Signal levels are LVCMOS/LVTTL compatible.
Used to indicate the presence of a serial digital input signal. Normally
generated by a Gennum automatic cable equalizer.
When LOW, the serial digital input signal received at the DDI2 and
DDI2 pins is considered valid.
When HIGH, the associated serial digital input signal is considered to
be invalid. In this case, the LOCKED signal is set LOW and all parallel
outputs are muted.
15, 17
DDI2, DDI2
Analog
Input
Differential input pair for serial digital input 2.
16
TERM2
Analog
Input
Termination for serial digital input 2. AC couple to PDBUFF_GND.
18
SMPTE_BYPASS
Non
Synchronous
Input /
Output
CONTROL SIGNAL INPUT / STATUS SIGNAL OUTPUT
Signal levels are LVCMOS/LVTTL compatible.
This pin will be an input set by the application layer in slave mode, and
will be an output set by the device in master mode.
Master Mode (MASTER/SLAVE = HIGH)
The SMPTE_BYPASS signal will be HIGH only when the device has
locked to a SMPTE compliant data stream. It will be LOW otherwise.
Slave Mode (MASTER/SLAVE = LOW)
When set HIGH in conjunction with DVB_ASI = LOW, the device will be
configured to operate in SMPTE mode. All I/O processing features may
be enabled in this mode.
When set LOW, the device will not support the descrambling,
decoding or word alignment of received SMPTE data. No I/O
processing features will be available.
19
RSET
Analog
Input
GS1560A
Used to set the serial digital loop-through output signal amplitude.
Connect to CD_VDD through 281Ω +/- 1% for 800mVp-p single-ended
output swing.
NC
–
–
GS1561
No Connect.
20
CD_VDD
–
Power
GS1560A
Power supply connection for the serial digital cable driver. Connect to
+1.8V DC analog.
NC
–
–
GS1561
No Connect.
GS1560A/GS1561 HD-LINX® II Dual-Rate Deserializer
Data Sheet
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June 2009
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Table 1-1: Pin Descriptions (Continued)
Pin
Number
Name
Timing
Type
Description
21
SDO_EN/DIS
Non
Synchronous
Input
GS1560A
CONTROL SIGNAL INPUT
Signal levels are LVCMOS/LVTTL compatible.
Used to enable or disable the serial digital output loop-through stage.
When set LOW, the serial digital output signals SDO and SDO are
disabled and become high impedance.
When set HIGH, the serial digital output signals SDO and SDO are
enabled.
NC
–
–
GS1561
No Connect.
22
CD_GND
–
Power
GS1560A
Ground connection for the serial digital cable driver. Connect to
analog GND.
NC
–
–
GS1561
No Connect.
23, 24
SDO, SDO
Analog
Output
GS1560A
Serial digital loop-through output signal operating at 1.485Gb/s,
1.485/1.001Gb/s, or 270Mb/s.
The slew rate of these outputs is automatically controlled to meet
SMPTE 292M and 259M specifications according to the setting of the
SD/HD pin.
NC
–
–
GS1561
No Connect.
25
RESET_TRST
Non
Synchronous
Input
CONTROL SIGNAL INPUT
Signal levels are LVCMOS/LVTTL compatible.
Used to reset the internal operating conditions to default settings and
to reset the JTAG test sequence.
Host Mode (JTAG/HOST = LOW)
When asserted LOW, all functional blocks will be set to default
conditions and all input and output signals become high impedance,
including the serial digital outputs SDO and SDO.
Must be set HIGH for normal device operation.
NOTE: When in slave mode, reset the device after the SD/HD input has
been initially configured, and after each subsequent SD/HD data rate
change.
JTAG Test Mode (JTAG/HOST = HIGH)
When asserted LOW, all functional blocks will be set to default and
the JTAG test sequence will be held in reset.
When set HIGH, normal operation of the JTAG test sequence resumes.
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Data Sheet
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Table 1-1: Pin Descriptions (Continued)
Pin
Number
Name
Timing
Type
Description
26
JTAG/HOST
Non
Synchronous
Input
CONTROL SIGNAL INPUT
Signal levels are LVCMOS/LVTTL compatible.
Used to select JTAG Test Mode or Host Interface Mode.
When set HIGH, CS_TMS, SDOUT_TDO, SDI_TDI and SCLK_TCK are
configured for JTAG boundary scan testing.
When set LOW, CS_TMS, SDOUT_TDO, SDI_TDI and SCLK_TCK are
configured as GSPI pins for normal host interface operation.
27
CS_TMS
Input
Synchronous
with
SCLK_TCK
CONTROL SIGNAL INPUT
Signal levels are LVCMOS/LVTTL compatible.
Chip Select / Test Mode Select
Host Mode (JTAG/HOST = LOW)
CS_TMS operates as the host interface chip select, CS, and is active
LOW.
JTAG Test Mode (JTAG/HOST = HIGH)
CS_TMS operates as the JTAG test mode select, TMS, and is active
HIGH.
NOTE: If the host interface is not being used, tie this pin HIGH.
28
SDOUT_TDO
Synchronous
with
SCLK_TCK
Output
CONTROL SIGNAL OUTPUT
Signal levels are LVCMOS/LVTTL compatible.
Serial Data Output / Test Data Output
Host Mode (JTAG/HOST = LOW)
SDOUT_TDO operates as the host interface serial output, SDOUT, used
to read status and configuration information from the internal
registers of the device.
JTAG Test Mode (JTAG/HOST = HIGH)
SDOUT_TDO operates as the JTAG test data output, TDO.
29
SDIN_TDI
Synchronous
with
SCLK_TCK
Input
CONTROL SIGNAL INPUT
Signal levels are LVCMOS/LVTTL compatible.
Serial Data In / Test Data Input
Host Mode (JTAG/HOST = LOW)
SDIN_TDI operates as the host interface serial input, SDIN, used to
write address and configuration information to the internal registers
of the device.
JTAG Test Mode (JTAG/HOST = HIGH)
SDIN_TDI operates as the JTAG test data input, TDI.
NOTE: If the host interface is not being used, tie this pin HIGH.
30
SCLK_TCK
Non
Synchronous
Input
CONTROL SIGNAL INPUT
Signal levels are LVCMOS/LVTTL compatible.
Serial Data Clock / Test Clock.
Host Mode (JTAG/HOST = LOW)
SCLK_TCK operates as the host interface burst clock, SCLK. Command
and data read/write words are clocked into the device synchronously
with this clock.
JTAG Test Mode (JTAG/HOST = HIGH)
SCLK_TCK operates as the JTAG test clock, TCK.
NOTE: If the host interface is not being used, tie this pin HIGH.
GS1560A/GS1561 HD-LINX® II Dual-Rate Deserializer
Data Sheet
27360 - 12
June 2009
12 of 79
Table 1-1: Pin Descriptions (Continued)
Pin
Number
Name
Timing
Type
31
DATA_ERROR
Synchronous
with PCLK
Output
Description
STATUS SIGNAL OUTPUT
Signal levels are LVCMOS/LVTTL compatible.
The DATA_ERROR signal will be LOW when an error within the
received data stream has been detected by the device. This pin is a
logical 'OR'ing of all detectable errors listed in the internal
ERROR_STATUS register.
Once an error is detected, DATA_ERROR will remain LOW until the
start of the next video frame / field, or until the ERROR_STATUS
register is read via the host interface.
The DATA_ERROR signal will be HIGH when the received data stream
has been detected without error.
NOTE: It is possible to program which error conditions are monitored
by the device by setting appropriate bits of the ERROR_MASK register
HIGH. All error conditions are detected by default.
32
FIFO_LD
Synchronous
with PCLK
Output
CONTROL SIGNAL OUTPUT
Signal levels are LVCMOS/LVTTL compatible.
Used as a control signal for external FIFO(s).
Normally HIGH but will go LOW for one PCLK period at SAV.
33, 68
CORE_GND
–
Power
Ground connection for the digital core logic. Connect to digital GND.
34
F
Synchronous
with PCLK
Output
STATUS SIGNAL OUTPUT
Signal levels are LVCMOS/LVTTL compatible.
Used to indicate the ODD / EVEN field of the video signal.
The F signal will be HIGH for the entire period of field 2 as indicated
by the F bit in the received TRS signals.
The F signal will be LOW for all lines in field 1 and for all lines in
progressive scan systems.
35
V
Synchronous
with PCLK
Output
STATUS SIGNAL OUTPUT
Signal levels are LVCMOS/LVTTL compatible.
Used to indicate the portion of the video field / frame that is used for
vertical blanking.
The V signal will be HIGH for the entire vertical blanking period as
indicated by the V bit in the received TRS signals.
The V signal will be LOW for all lines outside of the vertical blanking
interval.
36
H
Synchronous
with PCLK
Output
STATUS SIGNAL OUTPUT
Signal levels are LVCMOS/LVTTL compatible.
Used to indicate the portion of the video line containing active video
data. H signal timing is configurable via the H_CONFIG bit of the
IOPROC_DISABLE register accessible via the host interface.
Active Line Blanking (H_CONFIG = 0h)
The H signal will be HIGH for the entire horizontal blanking period,
including the EAV and SAV TRS words, and LOW otherwise. This is the
default setting.
TRS Based Blanking (H_CONFIG = 1h)
The H signal will be HIGH for the entire horizontal blanking period as
indicated by the H bit in the received TRS ID words, and LOW
otherwise.
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Data Sheet
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June 2009
13 of 79
Table 1-1: Pin Descriptions (Continued)
Pin
Number
Name
Timing
Type
Description
37, 64
CORE_VDD
–
Power
Power supply connection for the digital core logic. Connect to +1.8V
DC digital.
38, 39,
42-48, 50
DOUT[0:9]
Synchronous
with PCLK
Output
PARALLEL DATA BUS
Signal levels are LVCMOS/LVTTL compatible.
DOUT9 is the MSB and DOUT0 is the LSB.
HD 20-bit mode
SD/HD = LOW
20bit/10bit = HIGH
Chroma data output in SMPTE mode
SMPTE_BYPASS =HIGH
DVB_ASI = LOW
Data output in Data-Through mode
SMPTE_BYPASS = LOW
DVB_ASI = LOW
HD 10-bit mode
SD/HD = LOW
20bit/10bit = LOW
Forced LOW in all modes.
SD 20-bit mode
SD/HD = HIGH
20bit/10bit = HIGH
Chroma data output in SMPTE mode
SMPTE_BYPASS = HIGH
DVB_ASI = LOW
Data output in Data-Through mode
SMPTE_BYPASS = LOW
DVB_ASI = LOW
Forced LOW in DVB-ASI mode
SMPTE_BYPASS = LOW
DVB_ASI = HIGH
SD 10-bit mode
SD/HD = HIGH
20bit/10bit = LOW
Forced LOW in all modes.
40, 49, 60
IO_GND
–
Power
Ground connection for digital I/O buffers. Connect to digital GND.
41, 53, 61
IO_VDD
–
Power
Power supply connection for digital I/O buffers. Connect to +3.3V DC
digital.
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Data Sheet
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June 2009
14 of 79
Table 1-1: Pin Descriptions (Continued)
Pin
Number
Name
Timing
Type
51, 52,
54-59, 62,
63
DOUT[19:10]
Synchronous
with PCLK
Output
Description
PARALLEL DATA BUS
Signal levels are LVCMOS/LVTTL compatible.
DOUT19 is the MSB and DOUT10 is the LSB.
HD 20-bit mode
SD/HD = LOW
20bit/10bit = HIGH
Luma data output in SMPTE mode
SMPTE_BYPASS = HIGH
DVB_ASI = LOW
Data output in Data-Through mode
SMPTE_BYPASS = LOW
DVB_ASI = LOW
HD 10-bit mode
SD/HD = LOW
20bit/10bit = LOW
Multiplexed Luma and Chroma data
output in SMPTE mode
SMPTE_BYPASS = HIGH
DVB_ASI = LOW
Data output in Data-Through mode
SMPTE_BYPASS = LOW
DVB_ASI = LOW
SD 20-bit mode
SD/HD = HIGH
20bit/10bit = HIGH
Luma data output in SMPTE mode
SMPTE_BYPASS = HIGH
DVB_ASI = LOW
Data output in Data-Through mode
SMPTE_BYPASS = LOW
DVB_ASI = LOW
DVB-ASI data in DVB-ASI mode
SMPTE_BYPASS = LOW
DVB_ASI = HIGH
SD 10-bit mode
SD/HD = HIGH
20bit/10bit = LOW
Multiplexed Luma and Chroma data
output in SMPTE mode
SMPTE_BYPASS = HIGH
DVB_ASI = LOW
Data input in data through mode
SMPTE_BYPASS = LOW
DVB_ASI = LOW
DVB-ASI data in DVB-ASI mode
SMPTE_BYPASS = LOW
DVB_ASI = HIGH
65
YANC
Synchronous
with PCLK
Output
STATUS SIGNAL OUTPUT
Signal levels are LVCMOS/LVTTL compatible.
Used to indicate the presence of ancillary data in the video stream.
HD Mode (SD/HD = LOW)
The YANC signal will be HIGH when the device has detected VANC or
HANC data in the luma video stream and LOW otherwise.
SD Mode (SD/HD = LOW)
For 20-bit demultiplexed data (20bit/10bit = HIGH), the YANC signal
will be HIGH when VANC or HANC data is detected in the luma video
stream and LOW otherwise.
For 10-bit multiplexed data (20bit/10bit = LOW), the YANC signal will
be HIGH when VANC or HANC data is detected anywhere in the data
stream and LOW otherwise.
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June 2009
15 of 79
Table 1-1: Pin Descriptions (Continued)
Pin
Number
Name
Timing
Type
66
CANC
Synchronous
with PCLK
Output
Description
STATUS SIGNAL OUTPUT
Signal levels are LVCMOS/LVTTL compatible.
Used to indicate the presence of ancillary data in the video stream.
HD Mode (SD/HD = LOW)
The CANC signal will be HIGH when the device has detected VANC or
HANC data in the chroma video stream and LOW otherwise.
SD Mode (SD/HD = LOW)
For 20-bit demultiplexed data (20bit/10bit = HIGH), the CANC signal
will be HIGH when VANC or HANC data is detected in the chroma
video stream and LOW otherwise.
For 10-bit multiplexed data (20bit/10bit = LOW), the CANC signal will
be HIGH when VANC or HANC data is detected anywhere in the data
stream and LOW otherwise.
67
FW_EN/DIS
Non
Synchronous
Input
CONTROL SIGNAL INPUT
Signal levels are LVCMOS/LVTTL compatible.
Used to enable or disable the noise immune flywheel of the device.
When set HIGH, the internal flywheel is enabled. This flywheel is used
in the extraction and generation of TRS timing signals, in automatic
video standards detection, and in manual switch line lock handling.
When set LOW, the internal flywheel is disabled and TRS correction
and insertion is unavailable.
69
PCLK
–
Output
GS1560A/GS1561 HD-LINX® II Dual-Rate Deserializer
Data Sheet
27360 - 12
June 2009
PARALLEL DATA BUS CLOCK
Signal levels are LVCMOS/LVTTL compatible.
HD 20-bit mode
PCLK = 74.25MHz or 74.25/1.001MHz
HD 10-bit mode
PCLK = 148.5MHz or 148.5/1.001MHz
SD 20-bit mode
PCLK = 13.5MHz
SD 10-bit mode
PCLK = 27MHz
16 of 79
Table 1-1: Pin Descriptions (Continued)
Pin
Number
Name
Timing
Type
70
RC_BYP
Non
Synchronous
Input
/Outpu
t
Description
GS1560A
CONTROL SIGNAL INPUT / STATUS SIGNAL OUTPUT
Signal levels are LVCMOS/LVTTL compatible.
This pin will be an input set by the application layer in slave mode, and
will be an output set by the device in master mode.
Master Mode (MASTER/SLAVE = HIGH)
The RC_BYP signal will be HIGH only when the device has successfully
locked to a SMPTE compliant input data stream. In this case, the serial
digital loop-through output will be a reclocked version of the input.
The RC_BYP signal will be LOW whenever the input does not conform
to a SMPTE compliant data stream. In this case, the serial digital
loop-through output will be a buffered version of the input.
Slave Mode (MASTER/SLAVE = LOW)
When set HIGH, the serial digital output will be a reclocked version of
the input signal regardless of whether the device is in SMPTE, DVB-ASI
or Data-Through mode.
When set LOW, the serial digital output will be a buffered version of
the input signal in all modes.
RSV
–
–
GS1561
Connect to CORE_VDD through 2.2kΩ.
71
MASTER/SLAVE
Non
Synchronous
Input
CONTROL SIGNAL INPUT
Signal levels are LVCMOS/LVTTL compatible.
Used to determine the input / output selection for the DVB_ASI,
SD/HD, RC_BYP and SMPTE_BYPASS pins.
When set HIGH, the GS1560A is set to operate in master mode where
SD/HD, RC_BYP (GS1560A only) and SMPTE_BYPASS become status
signal output pins set by the device. In this mode, the GS1560A will
automatically detect, reclock, deserialize and process SD SMPTE and
HD SMPTE input data.
When set LOW, the GS1560A is set to operate in slave mode where
DVB_ASI, SD/HD, RC_BYP (GS1560A only) and SMPTE_BYPASS become
control signal input pins. In this mode, the application layer must set
these external device pins for the correct reception of either SMPTE or
DVB-ASI data. Slave mode also supports the reclocking and
deserializing of data not conforming to SMPTE or DVB-ASI streams.
72
LOCKED
Synchronous
with PCLK
Output
STATUS SIGNAL OUTPUT
Signal levels are LVCMOS / LVTTL compatible.
The LOCKED signal will be HIGH whenever the device has correctly
received and locked to SMPTE compliant data in SMPTE mode or
DVB-ASI compliant data in DVB-ASI mode.
It will be LOW otherwise.
73, 74
VCO, VCO
Analog
Input
Differential inputs for the external VCO reference signal. For single
ended devices such as the GO1555/GO1525*, VCO should be AC
coupled to VCO_GND.
VCO is nominally 1.485GHz.
*For new designs use GO1555
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Data Sheet
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June 2009
17 of 79
Table 1-1: Pin Descriptions (Continued)
Pin
Number
Name
Timing
Type
75
VCO_GND
–
Output
Power
Description
Ground reference for the external voltage controlled oscillator.
Connect to pins 2, 4, 6, and 8 of the GO1555/GO1525*. This pin is an
output.
Should be isolated from all other grounds.
*For new designs use GO1555
76
VCO_VCC
–
Output
Power
Power supply for the external voltage controlled oscillator. Connect to
pin 7 of the GO1555/GO1525*. This pin is an output.
Should be isolated from all other power supplies.
*For new designs use GO1555
77
LF
Analog
Output
Control voltage to external voltage controlled oscillator. Nominally
+1.25V DC.
78
CP_CAP
Analog
Input
PLL lock time constant capacitor connection. Normally connected to
VCO_GND through 2.2nF.
79
LB_CONT
Analog
Input
Control voltage to set the loop bandwidth of the integrated reclocker.
Normally connected to VCO_GND through 40kΩ.
80
CP_GND
–
Power
Ground connection for the charge pump. Connect to analog GND.
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Data Sheet
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June 2009
18 of 79
2. Electrical Characteristics
2.1 Absolute Maximum Ratings
Parameter
Value/Units
Supply Voltage Core
-0.3V to +2.1V
Supply Voltage I/O
-0.3V to +4.6V
Input Voltage Range (any input)
-2.0V to + 5.25V
Ambient Operating Temperature
-20°C < TA < 85°C
Storage Temperature
-40°C < TSTG < 125°C
Lead Temperature (soldering, 10 sec)
230°C
ESD Protection On All Pins (see Note 2)
1kV
NOTES:
1. See reflow solder profile ( on page 21)
2. HBM, per JESDA-114B
2.2 DC Electrical Characteristics
Table 2-1: DC Electrical Characteristics
TA = 0°C to 70°C, unless otherwise specified.
Parameter
Symbol
Conditions
Min
Typ
Max
Units
Test
Levels
Notes
Operation Temperature
Range
TA
–
0
–
70
°C
–
1
Digital Core Supply Voltage
CORE_VDD
–
1.65
1.8
1.95
V
1
1
Digital I/O Supply Voltage
IO_VDD
–
3.0
3.3
3.6
V
1
1
Charge Pump Supply Voltage
CP_VDD
–
3.0
3.3
3.6
V
1
1
Phase Detector Supply
Voltage
PD_VDD
–
1.65
1.8
1.95
V
1
1
Input Buffer Supply Voltage
BUFF_VDD
–
1.65
1.8
1.95
V
1
1
Cable Driver Supply Voltage
CD_VDD
–
1.71
1.8
1.89
V
1
1
External VCO Supply Voltage
Output
VCO_VCC
–
2.25
2.50
2.75
V
1
–
System
GS1560A/GS1561 HD-LINX® II Dual-Rate Deserializer
Data Sheet
27360 - 12
June 2009
19 of 79
Table 2-1: DC Electrical Characteristics (Continued)
TA = 0°C to 70°C, unless otherwise specified.
Parameter
Symbol
Conditions
Min
Typ
Max
Units
Test
Levels
Notes
+1.8V Supply Current
I1V8
–
–
–
245
mA
1
4
I1V8
–
–
–
200
mA
1
–
+3.3V Supply Current
I3V3
–
–
–
55
mA
1
5
Total Device Power
PD
–
–
–
625
mW
5
4, 5
PD
–
–
–
545
mW
5
5
Input Logic LOW
VIL
–
–
–
0.8
V
1
–
Input Logic HIGH
VIH
–
2.1
–
–
V
1
–
Output Logic LOW
VOL
8mA
–
0.2
0.4
V
1
–
Output Logic HIGH
VOH
8mA
IO_VDD - 0.4
–
–
V
1
–
Input Bias Voltage
VB
–
–
1.45
–
V
6
2
RSET Voltage
VRSET
RSET=281Ω
0.54
0.6
0.66
V
1
3
VCMOUT
75Ω load,
RSET=281Ω,
0.8
1.0
1.2
V
1
–
GS1560A
+1.8V Supply Current
GS1561
GS1560A
Total Device Power
GS1561
Digital I/O
Input
(GS1560A only)
Output (GS1560A only)
Output Common Mode
Voltage
SD and HD
TEST LEVELS
NOTES
1. Production test at room temperature and nominal supply voltage
with guardbands for supply and temperature ranges.
2. Production test at room temperature and nominal supply voltage
with guardbands for supply and temperature ranges using
correlated test.
3. Production test at room temperature and nominal supply
voltage.
4. QA sample test.
5. Calculated result based on Level 1, 2, or 3.
6. Not tested. Guaranteed by design simulations.
7. Not tested. Based on characterization of nominal parts.
8. Not tested. Based on existing design/characterization data of
similar product.
9. Indirect test.
1.
2.
3.
4.
5.
GS1560A/GS1561 HD-LINX® II Dual-Rate Deserializer
Data Sheet
27360 - 12
June 2009
All DC and AC electrical parameters within specification.
Input common mode is set by internal biasing resistors.
Set by the value of the RSET resistor. (GS1560A only)
Loop-through enabled. (GS1560A only)
Measured in 20-bit mode.
20 of 79
2.3 AC Electrical Characteristics
Table 2-2: AC Electrical Characteristics
Parameter
Symbol
Conditions
Min
Typ
Max
Units
Test
Levels
Notes
IJT
Nominal loop
bandwidth
0.6
–
–
UI
1
1
No data to HD
–
–
468
us
6,7
2
System
Serial Digital Input Jitter
Tolerance
Master Mode Asynchronous
Lock Time
Slave Mode Asynchronous
Lock Time
Device Latency
Reset Pulse Width
treset
HD to SD
–
–
260
us
6,7
2
No data to SD
–
–
340
us
6,7
2
SD to HD
–
–
256
us
6,7
2
No data to HD
–
–
240
us
6,7
2
No data to SD
–
–
197
us
6,7
2
No data to
DVB-ASI
–
–
68
us
6,7
2
10-bit SD
–
21
–
PCLK
6
–
20-bit HD
–
21
–
PCLK
6
–
DVB-ASI
–
11
–
PCLK
6
–
–
1
–
–
ms
7
6
–
–
1.485,
–
1
–
Serial Digital Differential Input
Serial Input Data Rate
Serial Digital Input Signal
Swing
DRDDI
ΔVDDI
Differential with
internal 100Ω
input termination
200
Gb/s
1.485/1.001,
Gb/s
270
Mb/s
600
1000
mVp-p
1
–
1.485,
–
Gb/s
1
–
Serial Digital Output (GS1560A only)
Serial Output Data Rate
Serial Output Swing
DRSDO
ΔVSDO
–
RSET = 281Ω
Load = 75Ω
–
1.485/1.001,
Gb/s
270
Mb/s
720
800
880
mVp-p
1
–
ORL compensation
using
recommended
circuit — HD
signal
–
200
260
ps
1
–
ORL compensation
using
recommended
circuit — SD signal
400
550
1500
ps
1
–
VDD = 1.8V
Serial Output Rise Time
20% ~ 80%
trSDO
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Data Sheet
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June 2009
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Table 2-2: AC Electrical Characteristics
Parameter
Symbol
Conditions
Serial Output Fall Time
20% ~ 80%
tfSDO
Serial Output Intrinsic Jitter
Serial Output Duty Cycle
Distortion
tIJ
DCDSDO
Min
Typ
Max
Units
Test
Levels
Notes
ORL compensation
using
recommended
circuit — HD
signal
–
235
260
ps
1
–
ORL compensation
using
recommended
circuit — SD signal
400
550
1500
ps
1
–
Pseudorandom
and pathological
HD signal
–
90
125
ps
1
3
Pseudorandom
and pathological
SD signal
–
270
350
ps
1
3
HD (1.485Gb/s)
–
10
–
ps
6,7
4
SD (270Mb/s)
–
20
–
ps
6,7
4
Parallel Output
Parallel Clock Frequency
fPCLK
–
13.5
–
148.5
MHz
1
–
Parallel Clock Duty Cycle
DCPCLK
–
40
50
60
%
1
–
Output Data Hold Time
tOH
20-bit HD
1.0
–
–
ns
1
5
10-bit SD, 50%
PCLK Duty Cycle
19.5
–
–
ns
1
5
20-bit HD
–
–
4.5
ns
1
5
10-bit SD, 50%
PCLK Duty Cycle
–
–
22.8
ns
1
5
–
–
–
1.5
ns
6,7
5
Output Data Delay Time
Output Data Rise/Fall Time
tOD
tr/tf
GS1560A/GS1561 HD-LINX® II Dual-Rate Deserializer
Data Sheet
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June 2009
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Table 2-2: AC Electrical Characteristics
Parameter
Symbol
Conditions
Min
Typ
Max
Units
Test
Levels
Notes
GSPI
GSPI Input Clock Frequency
fSCLK
–
–
–
6.6
MHz
1
–
GSPI Input Clock Duty Cycle
DCSCLK
–
40
50
60
%
6,7
–
GSPI Input Data Setup Time
–
–
0
–
–
ns
6,7
–
GSPI Input Data Hold Time
–
–
–
–
1.43
ns
6,7
–
GSPI Output Data Hold Time
–
–
2.10
–
–
ns
6,7
–
GSPI Output Data Delay Time
–
–
–
–
7.27
ns
6,7
–
TEST LEVELS
NOTES
1. Production test at room temperature and nominal supply voltage
with guardbands for supply and temperature ranges.
2. Production test at room temperature and nominal supply voltage
with guardbands for supply and temperature ranges using
correlated test.
3. Production test at room temperature and nominal supply voltage.
4. QA sample test.
5. Calculated result based on Level 1, 2, or 3.
6. Not tested. Guaranteed by design simulations.
7. Not tested. Based on characterization of nominal parts.
8. Not tested. Based on existing design/characterization data of
similar product.
9. Indirect test.
1.
2.
3.
4.
GS1560A/GS1561 HD-LINX® II Dual-Rate Deserializer
Data Sheet
27360 - 12
June 2009
6MHz sinewave modulation.
HD = 1080i, SD = 525i
Serial Digital Output Reclocked (RC_BYP = HIGH).
Serial Duty Cycle Distortion is defined here to be the difference
between the width of a ‘1’ bit, and the width of a ‘0’ bit. (GS1560A
only)
5. With 15pF load. (GS1560A only)
6. See Device Reset on page 70, Figure 4-16. (GS1560A only)
23 of 79
3. Input/Output Circuits
All resistors in ohms, all capacitors in farads, unless otherwise shown.
DDI
VDD
50
45K
TERM
150K
50
DDI
Figure 3-1: Serial Digital Input
VCO
VDD
25
1.5K
5K
25
VCO
Figure 3-2: VCO Input
LB_CONT
865mV
7.2K
Figure 3-3: PLL Loop Bandwidth Control
GS1560A/GS1561 HD-LINX® II Dual-Rate Deserializer
Data Sheet
27360 - 12
June 2009
24 of 79
SDO
SDO
Figure 3-4: Serial Digital Output (GS1560A only)
LF
CP_CAP
300
Figure 3-5: VCO Control Output & PLL Lock Time Capacitor
GS1560A/GS1561 HD-LINX® II Dual-Rate Deserializer
Data Sheet
27360 - 12
June 2009
25 of 79
IOPROC_DISABLE
Not Used
Not Used
Not Used
Not Used
ANC-UES
b14
b14
b14
b14
b14
VDS-b4
Not Used
Not Used
ANC-IDA
b13
b13
b13
b13
b13
VDS-b3
VFO2-b5
Not Used
Not Used
Not Used
Not Used
Not Used
Not Used
Not Used
Not Used
Not Used
Not Used
Not Used
Not Used
VFO4-b5
13
Not Used
GS1560A/GS1561 HD-LINX® II Dual-Rate Deserializer
Data Sheet
27360 - 12
June 2009
000h
ERROR_STATUS
Not Used
b15
b15
b15
b15
b15
Not Used
00Bh
00Ah
009h
008h
007h
006h
005h
004h
003h
002h
001h
EDH_FLAG
ANC_TYPE5
ANC_TYPE4
ANC_TYPE3
ANC_TYPE2
ANC_TYPE1
VIDEO_STANDARD
VFO2-b7
00Ch
VFO2-b6
Not Used
Not Used
Not Used
Not Used
Not Used
Not Used
Not Used
Not Used
Not Used
Not Used
Not Used
Not Used
VFO4-b6
Not Used
Not Used
Not Used
Not Used
Not Used
Not Used
Not Used
Not Used
Not Used
Not Used
Not Used
Not Used
VFO4-b7
019h
018h
017h
016h
015h
014h
013h
012h
011h
010h
00Fh
00Eh
00Dh
FF_LINE_END_F1
FF_LINE_START_F1
FF_LINE_END_F0
FF_LINE_START_F0
AP_LINE_END_F1
AP_LINE_START_F1
AP_LINE_END_F0
AP_LINE_START_F0
RASTER_STRUCTURE4
RASTER_STRUCTURE3
RASTER_STRUCTURE2
RASTER_STRUCTURE1
VIDEO_FORMAT_OUT
_B
VIDEO_FORMAT_OUT
_A
14
Not Used
15
Not Used
ADDRESS
01Ah
REGISTER NAME
ERROR_MASK
3.1 Host Interface Map
Not Used
Not Used
ANC-IDH
b12
b12
b12
b12
b12
VDS-b2
VFO2-b4
Not Used
Not Used
Not Used
Not Used
Not Used
Not Used
Not Used
Not Used
Not Used
Not Used
Not Used
Not Used
VFO4-b4
12
Not Used
Not Used
Not Used
ANC-EDA
b11
b11
b11
b11
b11
VDS-b1
VFO2-b3
Not Used
Not Used
Not Used
Not Used
Not Used
Not Used
Not Used
Not Used
Not Used
Not Used
b11
b11
VFO4-b3
11
Not Used
VD_STD_
ERR
Not Used
ANC-EDH
b10
b10
b10
b10
b10
VDS-b0
VFO2-b2
10
VD_STD_
ERR_MASK
Not Used
Not Used
Not Used
Not Used
Not Used
Not Used
Not Used
Not Used
b10
b10
b10
b10
VFO4-b2
FF_CRC_
ERR
Not Used
FF-UES
b9
b9
b9
b9
b9
INT_PROG
VFO2-b1
9
FF_CRC_
ERR_MASK
b9
b9
b9
b9
b9
b9
b9
b9
b9
b9
b9
b9
VFO4-b1
AP_CRC_
ERR
H_CONFIG
b8
b8
b8
b8
b8
STD_
LOCK
FF-IDA
VFO2-b0
Not Used
LOCK_ERR
FF-IDH
b7
b7
b7
b7
b7
CDF-b3
VFO1-b7
8
7
AP_CRC_ LOCK_ERR_
ERR_MASK
MASK
b8
b7
b8
b7
b8
b7
b8
b7
b8
b7
b8
b7
b8
b7
b8
b7
b8
b7
b8
b7
b8
b7
b8
b7
VFO4-b0
VFO3-b7
Not Used
CCS_ERR
FF-EDA
b6
b6
b6
b6
b6
CDF-b2
VFO1-b6
6
CCS_ERR_
MASK
b6
b6
b6
b6
b6
b6
b6
b6
b6
b6
b6
b6
VFO3-b6
ILLEGAL_
REMAP
YCS_ERR
FF-EDH
b5
b5
b5
b5
b5
CDF-b1
VFO1-b5
5
YCS_ERR_
MASK
b5
b5
b5
b5
b5
b5
b5
b5
b5
b5
b5
b5
VFO3-b5
EDH_CRC_
INS
CCRC_ERR
AP-UES
b4
b4
b4
b4
b4
CDF-b0
VFO1-b4
ANC_CSUM
_INS
YCRC_ERR
AP-IDA
b3
b3
b3
b3
b3
YDF-b3
VFO1-b3
CRC_INS
LNUM_ERR
AP-IDH
b2
b2
b2
b2
b2
YDF-b2
VFO1-b2
4
3
2
CCRC_ERR_ YCRC_ERR_ LNUM_ERR
MASK
MASK
_MASK
b4
b3
b2
b4
b3
b2
b4
b3
b2
b4
b3
b2
b4
b3
b2
b4
b3
b2
b4
b3
b2
b4
b3
b2
b4
b3
b2
b4
b3
b2
b4
b3
b2
b4
b3
b2
VFO3-b4
VFO3-b3
VFO3-b2
LNUM_ INS
SAV_ERR
AP-EDA
b1
b1
b1
b1
b1
YDF-b1
VFO1-b1
1
SAV_ERR_
MASK
b1
b1
b1
b1
b1
b1
b1
b1
b1
b1
b1
b1
VFO3-b1
26 of 79
TRS_INS
EAV_ERR
AP-EDH
b0
b0
b0
b0
b0
YDF-b0
VFO1-b0
0
EAV_ERR_
MASK
b0
b0
b0
b0
b0
b0
b0
b0
b0
b0
b0
b0
VFO3-b0
019h
018h
017h
016h
015h
014h
013h
012h
011h
010h
00Fh
00Eh
00Dh
00Ch
00Bh
00Ah
009h
008h
007h
006h
005h
004h
003h
002h
001h
000h
FF_LINE_END_F1
FF_LINE_START_F1
FF_LINE_END_F0
FF_LINE_START_F0
AP_LINE_END_F1
AP_LINE_START_F1
AP_LINE_END_F0
AP_LINE_START_F0
b15
b15
b15
b15
b15
15
b14
b14
b14
b14
b14
14
b13
b13
b13
b13
b13
13
GS1560A/GS1561 HD-LINX® II Dual-Rate Deserializer
Data Sheet
27360 - 12
June 2009
IOPROC_DISABLE
ANC_TYPE5
ANC_TYPE4
ANC_TYPE3
ANC_TYPE2
ANC_TYPE1
ADDRESS
01Ah
REGISTER NAME
ERROR_MASK
b12
b12
b12
b12
b12
12
b11
b11
b11
b11
b11
11
b10
b10
b10
b10
b10
10
VD_STD_
ERR_MASK
b9
b9
b9
b9
b9
9
FF_CRC_
ERR_MASK
b9
b9
b9
b9
b9
b9
b9
b9
H_CONFIG
b8
b8
b8
b8
b8
b7
b7
b7
b7
b7
8
7
AP_CRC_ LOCK_ERR_
ERR_MASK
MASK
b8
b7
b8
b7
b8
b7
b8
b7
b8
b7
b8
b7
b8
b7
b8
b7
3.1.1 Host Interface Map (R/W Configurable Registers)
b6
b6
b6
b6
b6
6
CCS_ERR_
MASK
b6
b6
b6
b6
b6
b6
b6
b6
ILLEGAL_
REMAP
b5
b5
b5
b5
b5
5
YCS_ERR_
MASK
b5
b5
b5
b5
b5
b5
b5
b5
EDH_CRC_
NS
b4
b4
b4
b4
b4
ANC_CSUM
_INS
b3
b3
b3
b3
b3
CRC_INS
b2
b2
b2
b2
b2
4
3
2
CCRC_ERR_ YCRC_ERR_ LNUM_ERR
MASK
MASK
_MASK
b4
b3
b2
b4
b3
b2
b4
b3
b2
b4
b3
b2
b4
b3
b2
b4
b3
b2
b4
b3
b2
b4
b3
b2
LNUM_ INS
b1
b1
b1
b1
b1
1
SAV_ERR_
MASK
b1
b1
b1
b1
b1
b1
b1
b1
27 of 79
TRS_INS
b0
b0
b0
b0
b0
0
EAV_ERR_
MASK
b0
b0
b0
b0
b0
b0
b0
b0
VFO2-b7
00Ch
000h
003h
002h
001h
00Bh
00Ah
009h
008h
007h
006h
005h
004h
VFO4-b7
15
ADDRESS
01Ah
019h
018h
017h
016h
015h
014h
013h
012h
011h
010h
00Fh
00Eh
00Dh
VDS-b3
ANC-IDA
ANC-UES
VFO2-b5
VFO4-b5
13
VDS-b4
VFO2-b6
VFO4-b6
14
GS1560A/GS1561 HD-LINX® II Dual-Rate Deserializer
Data Sheet
27360 - 12
June 2009
ERROR_STATUS
EDH_FLAG
VIDEO_STANDARD
RASTER_STRUCTURE4
RASTER_STRUCTURE3
RASTER_STRUCTURE2
RASTER_STRUCTURE1
VIDEO_FORMAT_OUT_
B
VIDEO_FORMAT_OUT_
A
REGISTER NAME
ANC-IDH
VDS-b2
VFO2-b4
VFO4-b4
12
ANC-EDA
VDS-b1
VFO2-b3
b11
b11
VFO4-b3
11
VD_STD_
ERR
ANC-EDH
VDS-b0
VFO2-b2
b10
b10
b10
b10
VFO4-b2
10
3.1.2 Host Interface Map (Read Only Registers)
FF_CRC_
ERR
FF-UES
INT_PROG
VFO2-b1
b9
b9
b9
b9
VFO4-b1
9
AP_CRC_
ERR
STD_
LOCK
FF-IDA
VFO2-b0
b8
b8
b8
b8
VFO4-b0
8
LOCK_ERR
FF-IDH
CDF-b3
VFO1-b7
b7
b7
b7
b7
VFO3-b7
7
CCS_ERR
FF-EDA
CDF-b2
VFO1-b6
b6
b6
b6
b6
VFO3-b6
6
YCS_ERR
FF-EDH
CDF-b1
VFO1-b5
b5
b5
b5
b5
VFO3-b5
5
CCRC_ERR
AP-UES
CDF-b0
VFO1-b4
b4
b4
b4
b4
VFO3-b4
4
YCRC_ERR
AP-IDA
YDF-b3
VFO1-b3
b3
b3
b3
b3
VFO3-b3
3
LNUM_ERR
AP-IDH
YDF-b2
VFO1-b2
b2
b2
b2
b2
VFO3-b2
2
SAV_ERR
AP-EDA
YDF-b1
VFO1-b1
b1
b1
b1
b1
VFO3-b1
1
28 of 79
EAV_ERR
AP-EDH
YDF-b0
VFO1-b0
b0
b0
b0
b0
VFO3-b0
0
4. Detailed Description
4.1 Functional Overview
The GS1560A/GS1561 is a dual-rate reclocking deserializer. An integrated serial digital
loop-through output is also included on the GS1560A only. When used in conjunction
with the multi-rate GS1524 Adaptive Cable Equalizer and the external
GO1555/GO1525* Voltage Controlled Oscillator, a receive solution at 1.485Gb/s,
1.485/1.001Gb/s or 270Mb/s is realized.
The device has two basic modes of operation which determine precisely how SMPTE or
DVB-ASI compliant input data streams are reclocked and processed.
In master mode, (MASTER/SLAVE = HIGH), the GS1560A/GS1561 will automatically
detect, reclock, deserialize and process SD SMPTE 259M-C or HD SMPTE 292M input
data.
In slave mode, (MASTER/SLAVE = LOW), the application layer must set external device
pins for the correct reception of either SMPTE or DVB-ASI data. Slave mode also
supports the reclocking and deserializing of data not conforming to SMPTE or DVB-ASI
streams.
The GS1560A includes an integrated cable driver is for serial input loop-through
applications. It can be selected to output either buffered or reclocked data. The cable
driver also features an output mute on loss of signal, high impedance mode, adjustable
signal swing, and automatic dual slew-rate selection depending on HD/SD operational
requirements.
In the digital signal processing core, several data processing functions are implemented
including error detection and correction and automatic video standards detection.
These features are all enabled by default, but may be individually disabled via internal
registers accessible through the GSPI host interface.
Finally, the GS1560A/GS1561 contains a JTAG interface for boundary scan test
implementations.
*For new designs use GO1555
GS1560A/GS1561 HD-LINX® II Dual-Rate Deserializer
Data Sheet
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4.2 Serial Digital Input
The GS1560A/GS1561 contains two current mode differential serial digital input
buffers, allowing the device to be connected to two SMPTE 259M-C or 292M compliant
input signals.
Both input buffers have internal 50Ω termination resistors which are connected to
ground via the TERM1 and TERM2 pins. The input common mode level is set by internal
biasing resistors such that the serial digital input signals must be AC coupled into the
device. Gennum recommends using a capacitor value of 4.7uF to accommodate
pathological signals.
The input buffers use a separate power supply of +1.8V DC supplied via the BUFF_VDD
and PDBUFF_GND pins.
4.2.1 Input Signal Selection
A 2x1 input multiplexer is provided to allow the application layer to select between the
two serial digital input streams using a single external pin. When IP_SEL is set HIGH,
serial digital input 1 (DDI1 / DDI1) is selected as the input to the GS1560A/GS1561's
reclocker stage. When IP_SEL is set LOW, serial digital input 2 (DDI2 / DDI2) is selected.
4.2.2 Carrier Detect Input
For each of the differential inputs, an associated carrier detect input signal is included,
(CD1 and CD2). These signals are generated by Gennum's family of automatic cable
equalizers.
When LOW, CDx indicates that a valid serial digital data stream is being delivered to the
GS1560A/GS1561 by the equalizer. When HIGH, the serial digital input to the device
should be considered invalid. If no equalizer precedes the device, the application layer
should set CD1 and CD2 accordingly.
NOTE: If the GS1524 Automatic Cable Equalizer is used, the MUTE/CD output signal
from that device must be translated to TTL levels before passing to the GS1560A/GS1561
CDx inputs. See GS1560A Typical Application Circuit (Part A) on page 71 for a
recommended transistor network that will set the correct voltage levels.
A 2x1 input multiplexer is also provided for these signals. The internal carrier_detect
signal is determined by the setting of the IP_SEL pin and is used by the lock detect block
of the GS1560A/GS1561 to determine the lock status of the device, (see Lock Detect on
page 34).
4.2.3 Single Input Configuration
If the application requires a single differential input, the second set of inputs may be left
unconnected. Tie the associated carrier detect pin HIGH, and leave the termination pin
unconnected.
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Data Sheet
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30 of 79
4.3 Serial Digital Reclocker
The output of the 2x1 serial digital input multiplexer passes to the GS1560A/GS1561's
internal reclocker stage. The function of this block is to lock to the input data stream,
extract a clean clock, and retime the serial digital data to remove high frequency jitter.
The reclocker was designed with a 'hexabang' phase and frequency detector. That is, the
PFD used can identify six 'degrees' of phase / frequency misalignment between the
input data stream and the clock signal provided by the VCO, and correspondingly signal
the charge pump to produce six different control voltages. This results in fast and
accurate locking of the PLL to the data stream.
In master mode, the operating center frequency of the reclocker is toggled between
270Mb/s and 1.485Gb/s by the lock detect block, (see Lock Detect on page 34). In slave
mode, however, the center frequency is determined entirely by the SD/HD input control
signal set by the application layer.
If lock is achieved, the reclocker provides an internal pll_lock signal to the lock detect
block of the device.
4.3.1 External VCO
The GS1560A/GS1561 requires the external GO1555/GO1525* Voltage Controlled
Oscillator as part of the reclocker's phase-locked loop. This external VCO
implementation was chosen to ensure high quality reclocking.
Power for the external VCO is generated entirely by the GS1560A/GS1561 from an
integrated voltage regulator. The internal regulator uses +3.3V DC supplied via the
CP_VDD / CP_GND pins to provide +2.5V DC on the VCO_VCC / VCO_GND pins.
The control voltage to the VCO is output from the GS1560A/GS1561 on the LF pin and
requires 4.7kΩ pull-up and pull-down resistors to ensure correct operation.
The GO1555/GO1525* produces a 1.485GHz reference signal for the reclocker, input on
the VCO pin of the GS1560A/GS1561. Both LF and VCO signals should be referenced to
the supplied VCO_GND as shown in the recommended application circuit of GS1560A
Typical Application Circuit (Part A) on page 71.
*For new designs use GO1555
4.3.2 Loop Bandwidth
The loop bandwidth of the integrated reclocker is nominally 1.4MHz, but may be
increased or decreased via the LB_CONT pin. It is recommended that this pin be
connected to VCO_GND through 39.2kΩ to maximize the input jitter tolerance of the
device.
4.4 Serial Digital Loop-Through Output (GS1560A only)
The GS1560A contains an integrated current mode differential serial digital cable driver
with automatic slew rate control. When enabled, this serial digital output provides an
active loop-through of the input signal.
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Data Sheet
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June 2009
31 of 79
To enable the loop-through output, SDO_EN/DIS must be set HIGH by the application
layer. Setting the SDO_EN/DIS signal LOW will cause the SDO and SDO output pins to
become high impedance, resulting in reduced device power consumption.
With suitable external return loss matching circuitry, the GS1560A's loop-through
outputs will provide a minimum output return loss of -15dB at SD rates. Gennum
recommends using the GS1528 SDI Dual Slew-Rate Cable Driver to meet output return
loss specifications at HD rates.
The integrated cable driver uses a separate power supply of +1.8V DC supplied via the
CD_VDD and CD_GND pins.
4.4.1 Output Swing
Nominally, the voltage swing of the serial digital loop-through output is 800mVp-p
single-ended into a 75Ω load. This is set externally by connecting the RSET pin to
CD_VDD through 281Ω.
The loop-through output swing may be decreased by increasing the value of the RSET
resistor. The relationship is approximated by the curve shown in Figure 4-1.
Alternatively, the serial digital output can drive 800mVp-p into a 50Ω load. Since the
output swing is reduced by a factor of approximately one third when the smaller load is
used, the RSET resistor must be 187Ω to obtain 800mVp-p.
1000
900
DVSDO(mVp-p)
800
700
600
500
400
300
250
300
350
400
450
500
550
600
650
700
750
RSET(W)
Figure 4-1: Serial Digital Loop-Through Output Swing
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Data Sheet
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June 2009
32 of 79
4.4.2 Reclocker Bypass Control
The serial digital loop-through output may be either a buffered version of the serial
digital input signal, or a reclocked version of that signal.
When operating in slave mode, the application layer may choose the reclocked output
by setting RC_BYP to logic HIGH. If RC_BYP is set LOW, the data stream will bypass the
internal reclocker and the serial digital output will be a buffered version of the input.
When operating in master mode, the device will assert the RC_BYP pin HIGH only when
it has successfully locked to a SMPTE input data stream, (see Lock Detect on page 34). In
this case, the serial digital loop-through output will be a reclocked version of the input.
4.4.3 Serial Digital Output Mute
The GS1560A will automatically mute the serial digital loop-through output in both
master and slave modes when the internal carrier_detect signal indicates an invalid
serial input.
The loop-through output will also be muted in slave mode when SDO/SDO is selected as
reclocked, (RC_BYP = HIGH), but the lock detect block has failed to lock to the data
stream, (LOCKED = LOW).
Table 4-1 summarizes the possible states of the serial digital loop-through output data
stream.
Table 4-1: Serial Digital Loop-Through Output Status
SLAVE MODE
CD
LOCKED
RC_BYP
(INPUT)
RECLOCKED
LOW
HIGH
HIGH
BUFFERED
LOW
X
LOW
MUTED
LOW
LOW
HIGH
MUTED
HIGH
LOW*
X
CD
LOCKED
RC_BYP
(OUTPUT)
RECLOCKED
LOW
HIGH
HIGH
BUFFERED
LOW
LOW
LOW
MUTED
HIGH
LOW*
LOW
SDO
MASTER MODE
SDO
*NOTE: LOCKED = HIGH if and only if CD = LOW
GS1560A/GS1561 HD-LINX® II Dual-Rate Deserializer
Data Sheet
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June 2009
33 of 79
4.5 Serial-To-Parallel Conversion
The retimed data and phase-locked clock signals from the reclocker are fed to the
serial-to-parallel converter. The function of this block is to extract 10-bit or 20-bit
parallel data words from the reclocked serial data stream and present them to the
SMPTE and DVB-ASI word alignment blocks simultaneously.
4.6 Modes Of Operation
The GS1560A/GS1561 has two basic modes of operation which determine how the lock
detect block controls the integrated reclocker. Master mode is enabled when the
application layer sets the MASTER/SLAVE pin HIGH, and slave mode is enabled when
MASTER/SLAVE is set LOW.
4.6.1 Lock Detect
The lock detect block controls the center frequency of the integrated reclocker to ensure
lock to the received serial digital data stream is achieved, and indicates via the LOCKED
output pin that the device has detected the appropriate sync words. In Data Through
mode, the detection for appropriate sync words is turned off. The LOCKED pin is an
indication of analog lock.
Lock detection is a continuous process, which begins at device power up or after a
system reset, and continues until the device is powered down or held in reset.
The lock detection algorithm first determines if a valid serial digital input signal has
been presented to the device by sampling the internal carrier_detect signal. As
described in Carrier Detect Input on page 30, this signal will be LOW when a good serial
digital input signal has been detected.
If the carrier_detect signal is HIGH, the serial data into the device is considered invalid,
and the VCO frequency will be set to the center of the pull range. The LOCKED pin will
be LOW and all outputs of the device except for the PCLK output will be muted. Instead,
the PCLK output frequency will operate within +/-3% of the rates shown in Table 4-16 of
Parallel Output Clock (PCLK) on page 66.
NOTE: When the device is operating in DVB-ASI slave mode, the parallel outputs will not
mute when the carrier_detect signal is HIGH. The LOCKED signal will function normally.
If a valid input signal has been detected, and the device is in master mode, the lock
algorithm will enter a hunt phase where four attempts are made to detect the presence
of either SMPTE TRS sync words. At each attempt, the center frequency of the reclocker
will be toggled between 270Mb/s and 1.485Gb/s.
Assuming that a valid SMPTE or DVB-ASI signal has been applied to the device,
asynchronous lock times will be as listed in Table 2-2: AC Electrical Characteristics.
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In slave mode, the application layer fixes the center frequency of the reclocker such that
the lock algorithm will attempt to lock within the single data rate determined by the
setting of the SD/HD pin. Asynchronous lock times are also listed in the Table 2-2: AC
Electrical Characteristics.
NOTE: The PCLK output will continue to operate during the lock detection process. The
frequency may toggle between 148MHz and 27MHz when the 20bit/10bit pin is set
LOW, or between 74MHz and 13.5MHz when 20bit/10bit is set HIGH.
For SMPTE inputs, the lock detect block will only assert the LOCKED output signal HIGH
if (1) the reclocker has locked to the input data stream as indicated by the internal
pll_lock signal, and (2) TRS sync words have been correctly identified.
If after four attempts lock has not been achieved, the lock detection algorithm will enter
into PLL lock mode. In this mode, the reclocker will attempt to lock to the input data
stream without detecting SMPTE TRS words. This unassisted process can take up to
10ms to achieve lock.
When reclocker lock as indicated by the internal pll_lock signal is achieved in this mode,
one of the following will occur:
1. In slave mode, data will be passed directly to the parallel outputs without any
further processing taking place and the LOCKED signal will be asserted HIGH if and
only if the SMPTE_BYPASS and DVB_ASI input pins are set LOW; or
2. In master mode, the LOCKED signal will be asserted LOW, the parallel outputs will
be latched to logic LOW, and the SMPTE_BYPASS output signal will also be set LOW.
4.6.2 Master Mode
Recall that the GS1560A/GS1561 is said to be in master mode when the MASTER/SLAVE
input signal is set HIGH. In this case, the following three device pins become output
status signals:
•
SMPTE_BYPASS
•
SD/HD
•
RC_BYP (GS1560A only)
The combined setting of these pins will indicate whether the device has locked to valid
SMPTE data at SD or HD rates. DVB_ASI functionality is not supported in Master mode.
Table 4-2 shows the possible combinations.
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4.6.3 Slave Mode
The GS1560A/GS1561 is said to be in slave mode when the MASTER/SLAVE input signal
is set LOW. In this case, the device pins listed in Master Mode on page 35, in addition to
the DVB_ASI pin, become input control signals.
It is required that the application layer set the inputs to reflect the appropriate input data
format (SMPTE_BYPASS, DVB_ASI, and SD/HD). If just one of these pins is configured
incorrectly, the device will not lock to the input data stream, and the DATA_ERROR pin
will be set LOW.
The input signals, RC_BYP (GS1560A only), allows the application layer to determine
whether the serial digital loop-through output will be a reclocked or buffered version of
the input, Reclocker Bypass Control on page 33. Table 4-3 shows the required settings
for various input formats.
Table 4-2: Master Mode Output Status Signals
PIN SETTINGS
FORMAT
SMPTE_BYPASS
SD/HD
RC_BYP
(GS1560A only)
HD SMPTE
HIGH
LOW
HIGH
SD SMPTE
HIGH
HIGH
HIGH
NOT SMPTE*
LOW
HIGH OR LOW
LOW
*NOTE: When the device locks to the data stream in PLL lock mode, the parallel outputs will
be latched LOW, and the serial loop-through output (GS1560A only) will be a buffered version
of the input.
Table 4-3: Slave Mode Control Signals
PIN SETTINGS
FORMAT
SMPTE_BYPASS
DVB_ASI
SD/HD
HD SMPTE
HIGH
LOW
LOW
SD SMPTE
HIGH
LOW
HIGH
DVB-ASI
LOW
HIGH
HIGH
NOT SMPTE OR
DVB-ASI*
LOW
LOW
HIGH OR LOW
*NOTE: See Data Through Mode on page 45 for a complete description of Data Through
mode.
4.7 SMPTE Functionality
The GS1560A/GS1561 is said to be in SMPTE mode once the device has detected SMPTE
TRS sync words and locked to the input data stream as described in Lock Detect on
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page 34. The device will remain in SMPTE mode until such time that SMPTE TRS sync
words fail to be detected.
The lock detect block may also drop out of SMPTE mode under the following conditions:
•
RESET_TRST is asserted LOW
•
CDx is HIGH
•
SMPTE_BYPASS is asserted LOW in slave mode
•
DVB_ASI is asserted HIGH in slave mode
TRS word detection is a continuous process and both 8-bit and 10-bit TRS words will be
identified by the device in both SD and HD modes.
In master mode, the GS1560A/GS1561 sets the SMPTE_BYPASS pin HIGH to indicate
that it has locked to a SMPTE input data stream. When operating in slave mode, the
application layer must assert the DVB_ASI pin LOW and the SMPTE_BYPASS pin HIGH
in order to enable SMPTE operation.
4.7.1 SMPTE Descrambling and Word Alignment
After serial-to-parallel conversion, the internal 10-bit or 20-bit data bus is fed to the
SMPTE descramble and word alignment block. The function of this block is to carry out
NRZI-to-NRZ decoding, descrambling according to SMPTE 259M or 292M, and word
alignment of the data to the TRS sync words.
Word alignment occurs when two consecutive valid TRS words (SAV and EAV inclusive)
with the same bit alignment have been detected.
In normal operation, re-synchronization of the word alignment process will only take
place when two consecutive identical TRS word positions have been detected. When
automatic or manual switch line lock handling is 'actioned', (see Switch Line Lock
Handling on page 38), word alignment re-synchronization will occur on the next
received TRS code word.
4.7.2 Internal Flywheel
The GS1560A/GS1561 has an internal flywheel which is used in the generation of
internal / external timing signals, in the detection and correction of certain error
conditions and in automatic video standards detection. It is only operational in SMPTE
mode.
The flywheel consists of a number of counters and comparators operating at video pixel
and video line rates. These counters maintain information about the total line length,
active line length, total number of lines per field / frame, and total active lines per field
/ frame for the received video stream.
The flywheel 'learns' the video standard by timing the horizontal and vertical reference
information contained in the TRS ID words of the received video stream. Full
synchronization of the flywheel to the received video standard therefore requires one
complete video frame.
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Once synchronization has been achieved, the flywheel will continue to monitor the
received TRS timing information to maintain synchronization.
The FW_EN/DIS input pin controls the synchronization mechanism of the flywheel.
When this input signal is LOW, the flywheel will re-synchronize all pixel and line based
counters on every received TRS ID word.
When FW_EN/DIS is held HIGH, re-synchronization of the pixel and line based counters
will only take place when a consistent synchronization error has been detected. Two
consecutive video lines with identical TRS timing different to the current flywheel
timing must occur to initiate re-synchronization of the counters. This provides a
measure of noise immunity to internal and external timing signal generation.
The flywheel will be disabled should the LOCKED signal or the RESET_TRST signal be
LOW. A LOW to HIGH transition on either signal will cause the flywheel to re-acquire
synchronization on the next received TRS word, regardless of the setting of the
FW_EN/DIS pin.
4.7.3 Switch Line Lock Handling
The principal of switch line lock handling is that the switching of synchronous video
sources will only disturb the horizontal timing and alignment of the stream, whereas the
vertical timing remains in synchronization.
To account for the horizontal disturbance caused by a synchronous switch, it is
necessary to re-synchronize the flywheel immediately after the switch has taken place.
Rapid re-synchronization of the GS1560A/GS1561 to the new video standard can be
achieved by controlling the flywheel using the FW_EN/DIS pin.
At every PCLK cycle the device samples the FW_EN/DIS pin. When a logic LOW to HIGH
transition at this pin is detected anywhere within the active line, the flywheel will
re-synchronize immediately to the next TRS word. This is shown in Figure 4-2.
To ensure switch line lock handling, the FW_EN/DIS signal should be LOW for a
minimum of one PCLK cycle (maximum one video line) anywhere within the active
portion of the line on which the switch has taken place.
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Switch point
Video source 1
EAV
ANC
EAV
Video source 2
SAV
ANC
SAV
ACTIVE PICTURE
EAV
ACTIVE PICTURE
ANC
EAV
ANC
SAV EAV
ACTIVE PICTURE
ANC
SAV EAV
EAV
ACTIVE PICTURE
ANC
ANC
EAV
SAV
ANC
ACTIVE PICTURE
EAV
ANC
SAV
SAV
ACTIVE PICTURE
EAV
ANC
SAV
switch video source 1 to 2
DATA IN
EAV
ANC
SAV
ACTIVE PICTURE
EAV
ANC
SAV
ACTIVE PICTURE
ANC
EAV
ANC
SAV
ACTIVE PICTURE
EAV
ANC
SAV
DATA OUT
EAV
ANC
SAV
ACTIVE PICTURE
EAV
ANC
SAV
ACTIVE PICTURE
ANC
EAV
ANC
SAV
ACTIVE PICTURE
EAV
ANC
SAV
Flywheel TRS
position
FW_EN/DIS
Flywheel re-synch
Switch point
Video source 1
EAV
ANC
SAV
ACTIVE PICTURE
EAV
ANC
SAV EAV
ACTIVE PICTURE
ANC
ACTIVE PICTURE
ANC
EAV
ANC
EAV
ANC
SAV
SAV
ACTIVE PICTURE
ACTIVE PICTURE
EAV
EAV
ANC
ANC
SAV
Video source 2
EAV
ANC
SAV
ACTIVE PICTURE
EAV
ANC
SAV EAV
SAV
DATA IN
EAV
ANC
SAV
ACTIVE PICTURE
EAV
ANC
SAV
ACTIVE PICTURE
EAV
ANC
SAV
ACTIVE PICTURE
EAV
ANC
SAV
DATA OUT
EAV
ANC
SAV
ACTIVE PICTURE
EAV
ANC
SAV
ACTIVE PICTURE
EAV
ANC
SAV
ACTIVE PICTURE
EAV
ANC
SAV
switch video source 2 to 1
Flywheel TRS
position
FW_EN/DIS
Flywheel re-synch
Figure 4-2: Switch Line Locking
The ability to manually re-synchronize the flywheel is also important when switching
asynchronous sources or to implement other non-standardized video switching
functions.
The GS1560A/GS1561 also implements automatic switch line lock handling. By utilizing
the synchronous switch points defined by SMPTE RP168 for all major video standards
with the automatic video standards detect function, the device automatically
re-synchronizes the flywheel at the switch point.
This function will occur regardless of the setting of the FW_EN/DIS pin.
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The switch line is defined as follows:
•
For 525 line interlaced systems: re-sync takes place at the end of lines 10 & 273.
•
For 525 line progressive systems: re-sync takes place at the end of line 10.
•
For 625 line interlaced systems: re-sync takes place at the end of lines 6 & 319.
•
For 625 line progressive systems: re-sync takes place at the end of line 6.
•
For 750 line progressive systems: re-sync takes place at the end of line 7.
•
For 1125 line interlaced systems: re-sync takes place at the end of lines 7 & 568.
•
For 1125 line progressive systems: re-sync takes place at the end of line 7.
A full list of all major video standards and switching lines is shown in Table 4-4.
NOTE 1: The flywheel timing will define the line count such that the line numbers shown
in Table 4-4 may not correspond directly to the digital line counts.
NOTE 2: Unless indicated by SMPTE 352M payload identifier packets, the
GS1560A/GS1561 will not distinguish between 50/60 frames PsF and 25/30 frames
interlaced for the 1125 line video systems; 24 PsF will be identified.
Table 4-4: Switch Line Position for Digital Systems
System
Video Format
Sampling
Signal
Standard
Parallel
Interface
Serial
Interface
Switch Line
No.
HD-SDTI
1920x1080 (PsF)
4:2:2
274M
274M + 348M
292M
7
1920x1080 (2:1)
4:2:2
274M
274M + 348M
292M
7, 569
1280x720 (1:1)
4:2:2
296M
296M + 348M
292M
7
720x576/50 (2:1)
4:2:2
BT.656
BT.656 + 305M
259M
6, 319
720x483/59.94 (2:1)
4:2:2
125M
125M + 305M
259M
10, 273
1280x720/60 (1:1)
4:2:2
296M
296M
296M
7
1280x720/50 (1:1)
4:2:2
296M
296M
296M
7
1280x720/30 (1:1)
4:2:2
296M
296M
296M
7
1280x720/25 (1:1)
4:2:2
296M
296M
296M
7
1280x720/24 (1:1)
4:2:2
296M
296M
296M
7
1920x1080/30 (PsF)
4:2:2
274M + RP211
274M + RP211
292M
7
1920x1080/25 (PsF)
4:2:2
274M + RP211
274M + RP211
292M
7
1920x1080/24 (PsF)
4:2:2
274M + RP211
274M + RP211
292M
7
1920x1080/60 (2:1)
4:2:2
274M + RP211
274M + RP211
292M
7, 569
1920x1080/50 (2:1)
4:2:2
274M + RP211
274M + RP211
292M
7, 569
SDTI
750
1125
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Table 4-4: Switch Line Position for Digital Systems
System
Video Format
Sampling
Signal
Standard
Parallel
Interface
Serial
Interface
Switch Line
No.
525
960x483/59.94 (2:1)
4:2:2
267M
349M
292M
10, 273
960x483/59.94 (2:1)
4:2:2
267M
267M
259M
10, 273
720x483/59.94 (2:1)
4:4:4:4
267M
349M
292M
10, 273
720x483/59.94 (2:1)
4:4:4:4
267M
347M
344M
10, 273
720x483/59.94 (2:1)
4:4:4:4
267M
RP174
344M
10, 273
720x483/59.94 (2:1)
4:4:4:4
267M
RP175
RP175
10, 273
720x483/59.94 (2:1)
4:2:2
125M
349M
292M
10, 273
720x483/59.94 (2:1)
4:2:2
125M
125M
259M
10, 273
720x483/59.94 (1:1)
4:2:2
293M
349M
292M
10
720x483/59.94 (1:1)
4:2:2
293M
347M
344M
10
720x483/59.94 (1:1)
4:2:2
293M
293M
294M
10
720x483/59.94 (1:1)
4:2:0
293M
349M
292M
10
720x483/59.94 (1:1)
4:2:0
293M
293M
294M
10
720x576/50 (1:1)
4:2:2
BT.1358
349M
292M
6
720x576/50 (1:1)
4:2:2
BT.1358
347M
344M
6
720x576/50 (1:1)
4:2:2
BT.1358
BT.1358
BT.1362
6
720x576/50 (1:1)
4:2:0
BT.1358
349M
292M
6
720x576/50 (1:1)
4:2:0
BT.1358
BT.1358
BT.1362
6
960x576/50 (2:1)
4:2:2
BT.601
349M
292M
6, 319
960x576/50 (2:1)
4:2:2
BT.601
BT.656
259M
6, 319
720x576/50 (2:1)
4:4:4:4
BT.799
349M
292M
6, 319
720x576/50 (2:1)
4:4:4:4
BT.799
347M
344M
6, 319
720x576/50 (2:1)
4:4:4:4
BT.799
BT.799
344M
6, 319
720x576/50 (2:1)
4:4:4:4
BT.799
BT.799
–
6, 319
720x576/50 (2:1)
4:2:2
BT.601
349M
292M
6, 319
720x576/50 (2:1)
4:2:2
BT.601
125M
259M
6, 319
625
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4.7.4 HVF Timing Signal Generation
The GS1560A/GS1561 extracts critical timing parameters from either the received TRS
signals (FW_EN/DIS = LOW), or from the internal flywheel-timing generator
(FW_EN/DIS = HIGH).
Horizontal blanking period (H), vertical blanking period (V), and even / odd field (F)
timing are all extracted and presented to the application layer via the H:V:F status
output pins.
The H signal timing is configurable via the H_CONFIG bit of the internal
IOPROC_DISABLE register as either active line based blanking, or TRS based blanking,
(see Error Correction and Insertion on page 60).
Active line based blanking is enabled when the H_CONFIG bit is set LOW. In this mode,
the H output is HIGH for the entire horizontal blanking period, including the EAV and
SAV TRS words. This is the default H timing used by the device.
When H_CONFIG is set HIGH, TRS based blanking is enabled. In this case, the H output
will be HIGH for the entire horizontal blanking period as indicated by the H bit in the
received TRS ID words.
The timing of these signals is shown in Figure 4-3.
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PCLK
LUMA DATA OUT
3FF
000
000
XYZ
(eav)
3FF
000
000
XYZ
(sav)
CHROMA DATA OUT
3FF
000
000
XYZ
(eav)
3FF
000
000
XYZ
(sav)
H
V
F
H:V:F TIMING - HD 20-BIT OUTPUT MODE
PCLK
MULTIPLEXED
Y/Cr/Cb DATA OUT
3FF
3FF
000
000
000
000
XYZ
(eav)
XYZ
(eav)
XYZ
(sav)
XYZ
(sav)
H
V
F
H:V:F TIMING AT EAV - HD 10-BIT OUTPUT MODE
PCLK
MULTIPLEXED
Y/Cr/Cb DATA OUT
3FF
3FF
000
000
000
000
H
V
F
H;V:F TIMING AT SAV - HD 10-BIT OUTPUT MODE
PCLK
CHROMA DATA OUT
3FF
000
3FF
000
LUMA DATA OUT
000
XYZ
(eav)
000
XYZ
(SAV)
H
V
H SIGNAL TIMING:
H_CONFIG = LOW
F
H_CONFIG = HIGH
H:V:F TIMING - SD 20-BIT OUTPUT MODE
PCLK
MULTIPLEXED
Y/Cr/Cb DATA OUT
3FF
000
000
XYZ
(eav)
3FF
000
000
XYZ
(sav)
H
V
F
H:V:F TIMING - SD 10-BIT OUTPUT MODE
Figure 4-3: H, V, F Timing
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4.8 DVB-ASI Functionality
The GS9060 conforms to DVB-ASI standard EN 50083-9:1998.
The lock detect block may drop out of DVB-ASI mode under the following conditions:
•
RESET_TRST is asserted LOW
•
CDx is HIGH
•
SMPTE_BYPASS is asserted HIGH in slave mode
•
DVB_ASI is asserted LOW in slave mode
DVB_ASI functionality is only supported in Slave mode. To operate in DVB_ASI mode,
the device must be in Slave mode, and the application layer must set the SD/HD pin
HIGH, in addition to setting SMPTE_BYPASS LOW and DVB_ASI HIGH.
4.8.1 Transport Packet Format
Transport packet structure shall conform to the specifications of EN/ISO/IEC 13818-1
and ETS 300 429 for Transport Stream Packets. The packet length can be 188 or 204
bytes.
4.8.2 DVB-ASI 8b/10b Decoding and Word Alignment
After serial-to-parallel conversion, the internal 10-bit data bus is fed to the DVB-ASI
8b/10b decode and word alignment block. The function of this block is to word align the
data to the K28.5 sync characters, and 8b/10b decode and bit-swap the data to achieve
bit alignment with the data outputs.
The extracted 8-bit data will be presented to DOUT[17:10], bypassing all internal SMPTE
mode data processing.
NOTE: When operating in DVB-ASI mode, DOUT[9:0] are forced LOW.
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4.8.3 Status Signal Outputs
In DVB-ASI mode, the DOUT19 and DOUT18 pins will be configured as DVB-ASI status
signals SYNCOUT and WORDERR respectively.
SYNCOUT will be HIGH whenever a K28.5 sync character is present on the output. This
output may be used to drive the write enable signal of an external FIFO, thus providing
a means of removing the K28.5 sync characters from the data stream. Parallel DVB-ASI
data may then be clocked out of the FIFO at some rate less than 27MHz. See Figure 4-4.
WORDERR will be high whenever the device has detected a running disparity error or
illegal code word.
AOUT ~ HOUT
DDI
8
8
DDI
FIFO
GS1560A / GS1561
SYNCOUT
FE
FF
WORDERR
WORDERR
PCLK = 27MHz
TS
CLK_IN
WE
CLK_OUT
READ_CLK
<27MHz
Figure 4-4: DVB-ASI FIFO Implementation Using The GS1560A
4.9 Data Through Mode
The GS1560A/GS1561 may be configured by the application layer to operate as a simple
serial-to-parallel converter. In this mode, the device presents data to the output data bus
without performing any decoding, descrambling or word-alignment.
Data through mode is enabled only when the MASTER/SLAVE, SMPTE_BYPASS, and
DVB_ASI input pins are set LOW. Under these conditions, the lock detection algorithm
enters PLL lock mode, (see Lock Detect on page 34), such that the device may reclock
data not conforming to SMPTE or DVB-ASI streams. The LOCKED pin will indicated
analog lock.
When operating in master mode, the GS1560A/GS1561 will set the SMPTE_BYPASS
signal to logic LOW if presented with a data stream without SMPTE TRS ID words. The
LOCKED and data bus outputs will be forced LOW and the serial digital loop-through
output (GS1560A only) will be a buffered version of the input.
4.10 Additional Processing Functions
The GS1560A/GS1561 contains an additional data processing block which is available
in SMPTE mode only, (see SMPTE Functionality on page 36).
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4.10.1 FIFO Load Pulse
To aid in the application-specific implementation of auto-phasing and line
synchronization functions, the GS1560A/GS1561 will generate a FIFO load pulse to
reset line-based FIFO storage.
The FIFO_LD output pin will normally be HIGH but will go LOW for one PCLK period,
thereby generating a FIFO write reset signal.
The FIFO load pulse will be generated such that it is co-timed to the SAV XYZ code word
presented to the output data bus. This ensures that the next PCLK cycle will correspond
to the first active sample of the video line.
Figure 4-5 shows the timing relationship between the FIFO_LD signal and the output
video data.
PCLK
LUMA DATA OUT
3FF
000
000
XYZ
(SAV)
CHROMA DATA OUT
3FF
000
000
XYZ
(SAV)
FIFO_LD
FIFO LOAD PULSE - HD 20BIT OUTPUT MODE
PCLK
MULTIPLEXED
Y/Cr/Cb DATA OUT
3FF
000
3FF
000
000
000
XYZ
(SAV)
XYZ
(SAV)
FIFO_LD
FIFO LOAD PULSE - HD 10BIT OUTPUT MODE
PCLK
CHROMA DATA OUT
3FF
000
LUMA DATA OUT
000
XYZ
(SAV)
FIFO_LD
FIFO LOAD PULSE - SD 20BIT OUTPUT MODE
PCLK
MULTIPLEXED
Y/Cr/Cb DATA OUT
3FF
000
000
XYZ
(SAV)
FIFO_LD
FIFO LOAD PULSE - SD 10BIT OUTPUT MODE
Figure 4-5: FIFO_LD Pulse Timing
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4.10.2 Ancillary Data Detection and Indication
The GS1560A/GS1561 will detect all types of ancillary data in either the vertical or
horizontal blanking spaces and indicate via the status signal output pins YANC and
CANC the position of ancillary data in the output data stream. These status signal
outputs are synchronous with PCLK and can be used as clock enables to external logic,
or as write enables to an external FIFO or other memory device.
When operating in HD mode, (SD/HD = LOW), the YANC signal will be HIGH whenever
ancillary data is detected in the luma data stream, and the CANC signal will be HIGH
whenever ancillary data is detected in the chroma data stream.
In SD mode, (SD/HD = HIGH), the YANC and CANC signal operation will depend on the
output data format. For 20-bit demultiplexed data, (see Parallel Data Outputs on
page 64), the YANC and CANC signals will operate independently. However, for 10-bit
multiplexed data, the YANC and CANC signals will both be HIGH whenever ancillary
data is detected.
The signals will be HIGH from the start of the ancillary data preamble and will remain
HIGH until after the ancillary data checksum.
The operation of the YANC and CANC signals is shown in Figure 4-6.
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PCLK
LUMA DATA OUT
000
3FF
3FF
DID
DBN
CHROMA DATA OUT
000
3FF
3FF
DID
DBN
DC
CSUM
BLANK
ANC DATA
ANC DATA
ANC DATA
DC
ANC DATA
BLANK
CSUM
YANC
CANC
ANC DATA DETECTION - HD 20BIT OUTPUT MODE
PCLK
MULTIPLEXED
Y/Cr/Cb DATA OUT
000
000
3FF
3FF
3FF
3FF
YDID
CANC
YCSUM
CCSUM
YANC
CANC
ANC DATA DETECTION - HD 10BIT OUTPUT MODE
PCLK
LUMA DATA OUT
BLANK
CHROMA DATA OUT
000
3FF
DID
3FF
DBN
DC
ANC DATA
ANC DATA
ANC DATA
CSUM
ANC DATA
ANC DATA
ANC DATA
ANC DATA
BLANK
YANC
CANC
ANC DATA DETECTION - SD 20BIT OUTPUT MODE
PCLK
MULTIPLEXED
Y/Cr/Cb DATA OUT
000
3FF
3FF
DID
DBN
DC
ANC DATA
ANC DATA
CSUM
YANC/CANC
ANC DATA DETECTION - SD 10BIT OUTPUT MODE
Figure 4-6: YANC and CANC Output Signal Timing
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4.10.2.1 Programmable Ancillary Data Detection
Although the GS1560A/GS1561 will detect all types of ancillary data by default, it also
allows the host interface to specifically program up to five different ancillary data types
for detection. This is accomplished via the ANC_TYPE register (Table 4-5).
For each data type to be detected, the host interface must program the DID and/or SDID
of the ancillary data type of interest. The GS1560A/GS1561 will compare the received
DID and/or SDID with the programmed values and assert YANC and CANC only if an
exact match is found.
If any DID or SDID value is set to zero in the ANC_TYPE register, no comparison or match
will be made for that value. For example, if the DID is programmed but the SDID is set to
zero, the device will detect all ancillary data types matching the DID value, regardless of
the SDID.
In the case where all five DID and SDID values are set to zero, the GS1560A/GS1561 will
detect all ancillary data types. This is the default setting after device reset.
Where one or more, but less than five, DID and/or SDID values have been programmed,
then only those matching ancillary data types will be detected and indicated.
NOTE 1: The GS1560A/GS1561 will always detect EDH ancillary data packets for EDH
error detection purposes, regardless of which DID/SDID values have been programmed
for ancillary data indication, (see EDH CRC Error Detection on page 57).
NOTE 2: See SMPTE 291M for a definition of ancillary data terms.
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Table 4-5: Host Interface Description for Programmable Ancillary Data Type Registers
Register Name
Bit
Name
Description
R/W
Default
ANC_TYPE1
Address: 005h
15-8
ANC_TYPE1[15:8]
Used to program the DID for ancillary data
detection at the YANC and CANC output
R/W
0
7-0
ANC_TYPE1[7:0]
Used to program the SDID for ancillary data
detection at the YANC and CANC output.
R/W
0
Should be set to zero if no SDID is present in the
ancillary data packet to be detected.
ANC_TYPE2
Address: 006h
15-8
ANC_TYPE2[15:8]
Used to program the DID for ancillary data
detection at the YANC and CANC output
R/W
0
7-0
ANC_TYPE2[7:0]
Used to program the SDID for ancillary data
detection at the YANC and CANC output.
R/W
0
Should be set to zero if no SDID is present in the
ancillary data packet to be detected.
ANC_TYPE3
Address: 007h
15-8
ANC_TYPE3[15:8]
Used to program the DID for ancillary data
detection at the YANC and CANC output
R/W
0
7-0
ANC_TYPE3[7:0]
Used to program the SDID for ancillary data
detection at the YANC and CANC output.
R/W
0
Should be set to zero if no SDID is present in the
ancillary data packet to be detected.
ANC_TYPE4
Address: 008h
15-8
ANC_TYPE4[15:8]
Used to program the DID for ancillary data
detection at the YANC and CANC output
R/W
0
7-0
ANC_TYPE4[7:0]
Used to program the SDID for ancillary data
detection at the YANC and CANC output.
R/W
0
Should be set to zero if no SDID is present in the
ancillary data packet to be detected.
ANC_TYPE5
Address: 009h
15-8
ANC_TYPE5[15:8]
Used to program the DID for ancillary data
detection at the YANC and CANC output
R/W
0
7-0
ANC_TYPE5[7:0]
Used to program the SDID for ancillary data
detection at the YANC and CANC output.
R/W
0
Should be set to zero if no SDID is present in the
ancillary data packet to be detected.
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4.10.3 SMPTE 352M Payload Identifier
The GS1560A/GS1561 can receive and detect the presence of the SMPTE 352M payload
identifier ancillary data packet. This four word payload identifier packet may be used to
indicate the transport mechanism, frame rate and line scanning / sampling structure.
Upon reception of this packet, the device will extract the four words describing the
video format being transported and make this information available to the host interface
via the four VIDEO_FORMAT_OUT registers (Table 4-6).
The VIDEO_FORMAT_OUT registers will only be updated if the received checksum is
the same as the locally calculated checksum.
These registers will be cleared to zero, indicating an undefined format, if the device loses
lock to the input data stream (LOCKED = LOW), or if the SMPTE_BYPASS pin is asserted
LOW. This is also the default setting after device reset.
The SMPTE 352M packet should be received once per field for interlaced systems and
once per frame for progressive systems. If the packet is not received for two complete
video frames, the VIDEO_FORMAT_OUT registers will be cleared to zero.
Table 4-6: Host Interface Description for SMPTE 352M Payload Identifier Registers
Register Name
Bit
Name
Description
VIDEO_FORMAT_OUT_B
Address: 00Dh
15-8
SMPTE352M
Byte 4
7-0
VIDEO_FORMAT_OUT_A
Address: 00Ch
R/W
Default
Data will be available in this register when Video
Payload Identification Packets are detected in the data
stream.
R
0
SMPTE352M
Byte 3
Data will be available in this register when Video
Payload Identification Packets are detected in the data
stream.
R
0
15-8
SMPTE352M
Byte 2
Data will be available in this register when Video
Payload Identification Packets are detected in the data
stream.
R
0
7-0
SMPTE352M
Byte 1
Data will be available in this register when Video
Payload Identification Packets are detected in the data
stream.
R
0
4.10.4 Automatic Video Standard and Data Format Detection
The GS1560A/GS1561 can independently detect the input video standard and data
format by using the timing parameters extracted from the received TRS ID words. This
information is presented to the host interface via the VIDEO_STANDARD register
(Table 4-7).
Total samples per line, active samples per line, total lines per field/frame and active lines
per field/frame are also calculated and presented to the host interface via the
RASTER_STRUCTURE registers (Table 4-8). These line and sample count registers are
updated once per frame at the end of line 12. This is in addition to the information
contained in the VIDEO_STANDARD register.
After device reset, the four RASTER_STRUCTURE registers default to zero.
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4.10.4.1 Video Standard Indication
The video standard codes reported in the VD_STD[4:0] bits of the VIDEO_STANDARD
register represent the SMPTE standards as shown in Table 4-9.
In addition to the 5-bit video standard code word, the VIDEO_STANDARD register also
contains two status bits. The STD_LOCK bit will be set HIGH whenever the flywheel has
achieved full synchronization. The INT_PROG bit will be set LOW if the detected video
standard is progressive and HIGH if the detected video standard is interlaced.
The VD_STD[4:0], STD_LOCK and INT_PROG bits of the VIDEO_STANDARD register
will default to zero after device reset. The VD_STD[4:0] and INT_PROG bits will also
default to zero if the device loses lock to the input data stream, (LOCKED = LOW), or if
the SMPTE_BYPASS pin is asserted LOW. The STD_LOCK bit will retain its previous
value if the input is removed.
Table 4-7: Host Interface Description for Video Standard and Data Format Register
Register Name
Bit
Name
Description
R/W
Default
VIDEO_STANDARD
Address: 004h
15
–
Not Used.
–
–
14-10
VD_STD[4:0]
Video Data Standard (see Table 4-9).
R
0
9
INT_PROG
Interlace/Progressive: Set LOW if detected video
standard is PROGRESSIVE and is set HIGH if it is
INTERLACED.
R
0
8
STD_LOCK
Standard Lock: Set HIGH when flywheel has
achieved full synchronization.
R
0
7-4
CDATA_FORMAT[3:0]
Chroma Data Format. Set HIGH in SD mode.
Indicates chroma data format in HD mode (see
Table 4-10).
R
Fh
3-0
YDATA_FORMAT[3:0]
Luma Data Format. Indicates Luma data format in
HD mode and data format in SD mode (see
Table 4-10).
R
Fh
R/W
Default
Table 4-8: Host Interface Description for Raster Structure Registers
Register Name
Bit
Name
Description
RASTER_STRUCTURE1
Address: 00Eh
15-12
–
Not Used.
–
–
11-0
RASTER_STRUCTURE1[11:0]
Words Per Active Line.
R
0
15-12
–
Not Used.
–
–
11-0
RASTER_STRUCTURE2[11:0]
Words Per Total Line.
R
0
15-11
–
Not Used.
–
–
10-0
RASTER_STRUCTURE3[10:0]
Total Lines Per Frame.
R
0
15-11
–
Not Used.
–
–
10-0
RASTER_STRUCTURE4[10:0]
Active Lines Per Field.
R
0
RASTER_STRUCTURE2
Address: 00Fh
RASTER_STRUCTURE3
Address: 010h
RASTER_STRUCTURE4
Address: 011h
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Table 4-9: Supported Video Standards
VD_STD[4:0]
SMPTE
Standard
Video Format
Length of
HANC
Length of
Active Video
Total
Samples
SMPTE352M
Lines
00h
296M (HD)
1280x720/60 (1:1)
358
1280
1650
13
01h
296M (HD)
1280x720/60 (1:1) - EM
198
1440
1650
13
02h
296M (HD)
1280x720/30 (1:1)
2008
1280
3300
13
03h
296M (HD)
1280x720/30 (1:1) - EM
408
2880
3300
13
04h
296M (HD)
1280x720/50 (1:1)
688
1280
1980
13
05h
296M (HD)
1280x720/50 (1:1) - EM
240
1728
1980
13
06h
296M (HD)
1280x720/25 (1:1)
2668
1280
3960
13
07h
296M (HD)
1280x720/25 (1:1) - EM
492
3456
3960
13
08h
296M (HD)
1280x720/24 (1:1)
2833
1280
4125
13
09h
296M (HD)
1280x720/24 (1:1) - EM
513
3600
4125
13
0Ah
274M (HD)
1920x1080/60 (2:1) or
1920x1080/30 (PsF)
268
1920
2200
10, 572
0Bh
274M (HD)
1920x1080/30 (1:1)
268
1920
2200
18
0Ch
274M (HD)
1920x1080/50 (2:1) or
708
1920
2640
10, 572
1920x1080/25 (PsF)
0Dh
274M (HD)
1920x1080/25 (1:1)
708
1920
2640
18
0Eh
274M (HD)
1920x1080/25 (1:1) - EM
324
2304
2640
18
0Fh
274M (HD)
1920x1080/25 (PsF) - EM
324
2304
2640
10, 572
10h
274M (HD)
1920x1080/24 (1:1)
818
1920
2750
18
11h
274M (HD)
1920x1080/24 (PsF)
818
1920
2750
10, 572
12h
274M (HD)
1920x1080/24 (1:1) - EM
338
2400
2750
18
13h
274M (HD)
1920x1080/24 (PsF) - EM
338
2400
2750
10, 572
14h
295M (HD)
1920x1080/50 (2:1)
444
1920
2376
10, 572
15h
260M (HD)
1920x1035/60 (2:1)
268
1920
2200
10, 572
16h
125M (SD)
1440x487/60 (2:1)
268
1440
1716
13, 276
268
1440
1716
13, 276
(Or dual link
progressive)
17h
125M (SD)
1440x507/60 (2:1)
19h
125M (SD)
525-line 487 generic
–
–
1716
13, 276
1Bh
125M (SD)
525-line 507 generic
–
–
1716
13, 276
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Table 4-9: Supported Video Standards (Continued)
VD_STD[4:0]
SMPTE
Standard
Video Format
Length of
HANC
Length of
Active Video
Total
Samples
SMPTE352M
Lines
18h
ITU-R BT.656
(SD)
1440x576/50 (2:1)
280
1440
1728
9, 322
1Ah
ITU-R BT.656
(SD)
625-line generic (EM)
–
–
1728
9, 322
1Dh
Unknown HD
–
–
–
–
–
1Eh
Unknown SD
–
–
–
–
–
1Ch, 1Fh
Reserved
–
–
–
–
–
(Or dual link
progressive)
4.10.4.2 Data Format Indication
The luma and chroma data format codes will be reported in the YDATA_FORMAT[3:0]
and CDATA_FORMAT[3:0] bits of the VIDEO_STANDARD register when the device is
operating in HD mode, (SD/HD = LOW).
In SD or DVB-ASI mode, the data format code will only appear in the
YDATA_FORMAT[3:0] bits. The CDATA_FORMAT[3:0] bits will be set to 'Fh'. These codes
represent the data formats listed in Table 4-10.
The YDATA_FORMAT[3:0] and CDATA_FORMAT[3:0] bits of the VIDEO_STANDARD
register will default to 'Fh' after device reset. These bits will also default to 'Fh' if the
device loses lock to the input data stream, (LOCKED = LOW), or if Data-Through mode is
enabled, (see Data Through Mode on page 45).
Table 4-10: Data Format Codes
YDATA_FORMAT[3:0] or
CDATA_FORMAT[3:0]
Data Format
Applicable
Standards
0h
SDTI DVCPRO - No ECC
SMPTE 321M
1h
SDTI DVCPRO - ECC
SMPTE 321M
2h
SDTI DVCAM
SMPTE 322M
3h
SDTI CP
SMPTE 326M
4h
Other SDTI fixed block size
–
5h
Other SDTI variable block size
–
6h
SDI
–
7h
DVB-ASI
–
8h
TDM data
SMPTE 346M
9h ~ Eh
Reserved
–
Fh
Unknown data format
–
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4.10.5 Error Detection and Indication
The GS1560A/GS1561 contains a number of error detection functions to enhance
operation of the device when operating in SMPTE mode. These functions, (except lock
error detection), will not be available in either DVB-ASI or Data-Through operating
modes. See DVB-ASI Functionality on page 44 and Data Through Mode on page 45.
The device maintains an error status register at address 001h called ERROR_STATUS
(Table 4-11). Each type of error has a specific flag or bit in this register which is set HIGH
whenever that error is detected.
The ERROR_STATUS register will be cleared at the start of each video field or when read
by the host interface, which ever condition occurs first.
All bits of the ERROR_STATUS register except the LOCK_ERR bit will also be cleared if a
change in the video standard is detected, or under the following conditions:
•
RESET_TRST is held LOW
•
LOCKED is asserted LOW
•
SMPTE_BYPASS is asserted LOW in slave mode
In addition to the ERROR_STATUS register, a register called ERROR_MASK (Table 4-12)
is included which allows the host interface to select the specific error conditions that
will be detected. There is one bit in the ERROR_MASK register for each type of error
represented in the ERROR_STATUS register.
The bits of the ERROR_MASK register will default to '0' after device reset, thus enabling
all error types to be detected. The host interface may disable individual error detection
by setting the corresponding bit HIGH in this register.
Error conditions are also indicated to the application layer via the status signal pin
DATA_ERROR. This output pin is a logical 'OR'ing of each error status flag stored in the
ERROR_STATUS register. DATA_ERROR is normally HIGH, but will be set LOW by the
device when an error condition that has not been masked is detected.
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Table 4-11: Host Interface Description for Error Status Register
Register Name
Bit
Name
Description
R/W
Default
ERROR_STATUS
Address: 001h
15-11
–
Not Used.
–
–
10
VD_STD_ERR
Video Standard Error Flag. Set HIGH when a
mismatch between the received SMPTE352M
packets and the calculated video standard occurs.
R
0
9
FF_CRC_ERR
Full Field CRC Error Flag. Set HIGH in SD mode when
a Full Field (FF) CRC mismatch has been detected in
Field 1 or 2.
R
0
8
AP_CRC_ERR
Active Picture CRC Error Flag. Set HIGH in SD mode
when an Active Picture (AP) CRC mismatch has been
detected in Field 1 or 2.
R
0
7
LOCK_ERR
Lock Error Flag. Set HIGH whenever the LOCK pin is
LOW (indicating the device not correctly locked).
R
0
6
CCS_ERR
Chroma Checksum Error Flag. Set HIGH when
ancillary data packet checksum error has been
detected in the C channel.
R
0
5
YCS_ERR
Luma Checksum Error Flag. Set HIGH when ancillary
data packet checksum error has been detected in
the Y channel.
R
0
4
CCRC_ERR
Chroma CRC Error Flag. Set HIGH in HD mode when
a mismatch occurs between the calculated and
received CRC values in the C channel.
R
0
3
YCRC_ERR
Luma CRC Error Flag. Set HIGH in HD mode when a
mismatch occurs between the calculated and
received CRC values in the Y channel.
R
0
2
LNUM_ERR
Line Number Error Flag. Set HIGH in HD mode when
a mismatch occurs between the calculated and
received line numbers.
R
0
1
SAV_ERR
Start of Active Video Error Flag. Set HIGH when TRS
errors are detected in either 8-bit or 10-bit TRS
words. In HD mode only Y channel TRS codes will be
checked. FW_EN/DIS must be set HIGH.
R
0
0
EAV_ERR
End of Active Video Error Flag. Set HIGH when TRS
errors are detected in either 8-bit or 10-bit TRS
words. In HD mode only Y channel TRS codes will be
checked. FW_EN/DIS must be set HIGH.
R
0
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Table 4-12: Host Interface Description for Error Mask Register
Register Name
Bit
Name
Description
R/W
Default
ERROR_MASK
Address: 01Ah
15-11
–
Not Used.
–
–
10
VD_STD_ERR_MASK
Video Standard Error Flag Mask bit.
R/W
0
9
FF_CRC_ERR_MASK
Full Field CRC Error Flag Mask bit.
R/W
0
8
AP_CRC_ERR_MASK
Active Picture CRC Error Flag Mask bit.
R/W
0
7
LOCK_ERR_MASK
Lock Error Flag Mask bit.
R/W
0
6
CCS_ERR_MASK
Chroma Checksum Error Flag Mask bit.
R/W
0
5
YCS_ERR_MASK
Luma Checksum Error Flag Mask bit.
R/W
0
4
CCRC_ERR_MASK
Chroma CRC Error Flag Mask bit.
R/W
0
3
YCRC_ERR_MASK
Luma CRC Error Flag Mask bit.
R/W
0
2
LNUM_ERR_MASK
Line Number Error Flag Mask bit.
R/W
0
1
SAV_ERR_MASK
Start of Active Video Error Flag Mask bit.
R/W
0
0
EAV_ERR_MASK
End of Active Video Error Flag Mask bit.
R/W
0
4.10.5.1 Video Standard Error Detection
If a mismatch between the received SMPTE 352M packets and the calculated video
standard occurs, the GS1560A/GS1561 will indicate a video standard error by setting
the VD_STD_ERR bit of the ERROR_STATUS register HIGH.
4.10.5.2 EDH CRC Error Detection
The GS1560A/GS1561 calculates Full Field (FF) and Active Picture (AP) CRC words
according to SMPTE RP165 in support of Error Detection and Handling packets in SD
signals.
These calculated CRC values are compared with the received CRC values. If a mismatch
is detected, the error is flagged in the AP_CRC_ERR and/or FF_CRC_ERR bits of the
ERROR_STATUS register. These two flags are shared between fields 1 and 2.
The AP_CRC_ERR bit will be set HIGH when an active picture CRC mismatch has been
detected in field 1 or 2. The FF_CRC_ERR bit will be set HIGH when a full field CRC
mismatch has been detected in field 1 or 2.
EDH CRC errors will only be indicated when the device is operating in SD mode (SD/HD
= HIGH), and when the device has correctly received EDH packets.
SMPTE RP165 specifies the calculation ranges and scope of EDH data for standard 525
and 625 component digital interfaces. The GS1560A/GS1561 will utilize these standard
ranges by default.
If the received video format does not correspond to 525 or 625 digital component video
standards as determined by the flywheel pixel and line counters, then one of two
schemes for determining the EDH calculation ranges will be employed:
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1. Ranges will be based on the line and pixel ranges programmed by the host
interface; or
2. In the absence of user-programmed calculation ranges, ranges will be determined
from the received TRS timing information.
The registers available to the host interface for programming EDH calculation ranges
include active picture and full field line start and end positions for both fields. Table 4-13
shows the relevant registers, which default to '0' after device reset.
If any or all of these register values are zero, then the EDH CRC calculation ranges will
be determined from the flywheel generated H signal. The first active and full field pixel
will always be the first pixel after the SAV TRS code word. The last active and full field
pixel will always be the last pixel before the start of the EAV TRS code words.
Table 4-13: Host Interface Description for EDH Calculation Range Registers
Register Name
Bit
Name
Description
AP_LINE_START_F0
Address: 012h
15-10
–
Not Used.
9-0
AP_LINE_START_F0[9:0]
Field 0 Active Picture start line data used to set
EDH calculation range outside of SMPTE RP 165
values.
15-10
–
Not Used.
9-0
AP_LINE_END_F0[9:0]
Field 0 Active Picture end line data used to set
EDH calculation range outside of SMPTE RP 165
values.
15-10
–
Not Used.
9-0
AP_LINE_START_F1[9:0]
Field 1 Active Picture end line data used to set
EDH calculation range outside of SMPTE RP 165
values.
15-10
–
Not Used.
9-0
AP_LINE_END_F1[9:0]
Field 1 Active Picture end line data used to set
EDH calculation range outside of SMPTE RP 165
values.
15-10
–
Not Used.
9-0
FF_LINE_START_F0[9:0]
Field 0 Full Field start line data used to set EDH
calculation range outside of SMPTE RP 165
values.
15-10
–
Not Used.
9-0
FF_LINE_END_F0[9:0]
Field 0 Full Field start line data used to set EDH
calculation range outside of SMPTE RP 165
values.
15-10
–
Not Used.
9-0
FF_LINE_START_F1[9:0]
Field 1 Full Field start line data used to set EDH
calculation range outside of SMPTE RP 165
values.
AP_LINE_END_F0
Address: 013h
AP_LINE_START_F1
Address: 014h
AP_LINE_END_F1
Address: 015h
FF_LINE_START_F0
Address: 016h
FF_LINE_END_F0
Address: 017h
FF_LINE_START_F1
Address: 018h
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R/W
Default
–
–
R/W
0
–
–
R/W
0
–
–
R/W
0
–
–
R/W
0
–
–
R/W
0
–
–
R/W
0
–
–
R/W
0
58 of 79
Table 4-13: Host Interface Description for EDH Calculation Range Registers (Continued)
Register Name
Bit
Name
Description
FF_LINE_END_F1
Address: 019h
15-10
–
Not Used.
9-0
FF_LINE_END_F1[9:0]
Field 1 Full Field end line data used to set EDH
calculation range outside of SMPTE RP 165
values.
R/W
Default
–
–
R/W
0
4.10.5.3 Lock Error Detection
The LOCKED pin of the GS1560A/GS1561 indicates the lock status of the reclocker and
lock detect blocks of the device. Only when the LOCKED pin is asserted HIGH has the
device correctly locked to the received data stream, (see Lock Detect on page 34).
The GS1560A/GS1561 will also indicate lock error to the host interface when LOCKED
= LOW by setting the LOCK_ERR bit in the ERROR_STATUS register HIGH.
4.10.5.4 Ancillary Data Checksum Error Detection
The GS1560A/GS1561 will calculate checksums for all received ancillary data and
compare the calculated values to the received checksum words. If a mismatch is
detected, the error is flagged in the CCS_ERR and/or YCS_ERR bits of the
ERROR_STATUS register.
When operating in HD mode, (SD/HD = LOW), the device will make comparisons on
both the Y and C channels separately. If an error condition in the Y channel is detected,
the YCS_ERR bit will be set HIGH. If an error condition in the C channel is detected, the
CCS_ERR bit will be set HIGH.
When operating in SD mode, (SD/HD = HIGH), only the YCS_ERR bit will be set HIGH
when checksum errors are detected.
Although the GS1560A/GS1561 will calculate and compare checksum values for all
ancillary data types by default, the host interface may program the device to check only
certain types of ancillary data checksums.
This is accomplished via the ANC_TYPE register as described in Programmable
Ancillary Data Detection on page 49.
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4.10.5.5 Line Based CRC Error Detection
The GS1560A/GS1561 will calculate line based CRC words for HD video signals for both
the Y and C data channels. These calculated CRC values are compared with the received
CRC values and any mismatch is flagged in the YCRC_ERR and/or CCRC_ERR bits of the
ERROR_STATUS register.
Line based CRC error flags will only be generated when the device is operating in HD
mode, (SD/HD = LOW).
If a CRC error is detected in the Y channel, the YCRC_ERR bit in the error status register
will be set HIGH. If a CRC error is detected in the C channel, the CCRC_ERR bit in the
error status register is set HIGH. Y and C CRC errors will also be generated if CRC values
are not received.
4.10.5.6 HD Line Number Error Detection
When operating in HD mode, the GS1560A/GS1561 will calculate line numbers based
on the timing generated by the internal flywheel. These calculated line numbers are
compared with the received line numbers for the Y channel data and any mismatch is
flagged in the LNUM_ERR bit of the ERROR_STATUS.
Line number errors will also be generated if line number values are not received.
4.10.5.7 TRS Error Detection
TRS errors flags are generated by the GS1560A/GS1561 when:
1. The received TRS timing does not correspond to the internal flywheel timing; or
2. The received TRS hamming codes are incorrect.
Both 8-bit and 10-bit SAV and EAV TRS words are checked for timing and data integrity
errors. These are flagged via the SAV_ERR and/or EAV_ERR bits of the ERROR_STATUS
register.
Timing-based TRS errors will only be generated if the FW_EN/DIS pin is set HIGH.
NOTE: In HD mode, (SD/HD = LOW), only the Y channel TRS codes will be checked for
errors.
4.10.6 Error Correction and Insertion
In addition to signal error detection and indication, the GS1560A/GS1561 may also
correct certain types of errors by inserting corrected code words, checksums and CRC
values into the data stream. These features are only available in SMPTE mode and
IOPROC_EN/DIS must be set HIGH. Individual correction features may be enabled or
disabled via the IOPROC_DISABLE register (Table 4-14).
All of the IOPROC_DISABLE register bits default to '0' after device reset, enabling all of
the processing features. To disable any individual error correction feature, the host
interface must set the corresponding bit HIGH in the IOPROC_DISABLE register.
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Table 4-14: Host Interface Description for Internal Processing Disable Register
Register Name
Bit
Name
Description
IOPROC_DISABLE
Address: 000h
15-9
–
Not Used.
8
H_CONFIG
Horizontal sync timing output configuration. Set
LOW for active line blanking timing. Set HIGH for H
blanking based on the H bit setting of the TRS
words. See Figure 4-2.
7-6
–
Not Used.
5
ILLEGAL_REMAP
4
R/W
Default
–
–
0
–
–
Illegal Code re-mapping. Correction of illegal code
words within the active picture. Set HIGH to disable.
The IOPROC_EN/DIS pin must be set HIGH.
R/W
0
EDH_CRC_INS
Error Detection & Handling (EDH) Cyclical
Redundancy Check (CRC) error correction insertion.
In SD mode set HIGH to disable. The IOPROC_EN/DIS
pin must be set HIGH.
R/W
0
3
ANC_CSUM_INS
Ancillary Data Check-sum insertion. Set HIGH to
disable. The IOPROC_EN/DIS pin must be set HIGH.
R/W
0
2
CRC_INS
Y and C line based CRC insertion. In HD mode, inserts
line based CRC words in both the Y and C channels.
Set HIGH to disable. The IOPROC_EN/DIS pin must be
set HIGH.
R/W
0
1
LNUM_INS
Y and C line number insertion. In HD mode set HIGH
to disable. The IOPROC_EN/DIS pin must be set HIGH.
R/W
0
0
TRS_INS
Timing Reference Signal Insertion. Set HIGH to
disable. The IOPROC_EN/DIS pin must be set HIGH.
R/W
0
4.10.6.1 Illegal Code Remapping
If the ILLEGAL_REMAP bit of the IOPROC_DISABLE register is set LOW, the GS1560A
will remap all codes within the active picture between the values of 3FCh and 3FFh to
3FBh. All codes within the active picture area between the values of 000h and 003h will
be re-mapped to 004h.
In addition, 8-bit TRS and ancillary data preambles will be remapped to 10-bit values if
this feature is enabled.
4.10.6.2 EDH CRC Error Correction
The GS1560A/GS1561 will generate and insert active picture and full field CRC words
into the EDH data packets received by the device. This feature is only available in SD
mode and is enabled by setting the EDH_CRC_INS bit of the IOPROC_DISABLE register
LOW.
EDH CRC calculation ranges are described in EDH CRC Error Detection on page 57.
NOTE: Although the GS1560A/GS1561 will modify and insert EDH CRC words and EDH
packet checksums, EDH error flags will not be updated by the device.
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4.10.6.3 Ancillary Data Checksum Error Correction
When ancillary data checksum error correction and insertion is enabled, the
GS1560A/GS1561 will generate and insert ancillary data checksums for all ancillary
data words by default. Where user specified ancillary data has been programmed into
the device, (see Programmable Ancillary Data Detection on page 49), only the
checksums for the programmed ancillary data types will be corrected.
This feature is enabled when the ANC_CSUM_INS bit of the IOPROC_DISABLE register
is set LOW.
4.10.6.4 Line Based CRC Correction
The GS1560A/GS1561 will generate and insert line based CRC words into both the Y and
C channels of the data stream. This feature is only available in HD mode and is enabled
by setting the CRC_INS bit of the IOPROC_DISABLE register LOW.
4.10.6.5 HD Line Number Error Correction
In HD mode, the GS1560A/GS1561 will calculate and insert line numbers into the Y and
C channels of the output data stream.
Line number generation is in accordance with the relevant HD video standard as
determined by the device, (see Automatic Video Standard and Data Format Detection on
page 51).
This feature is enabled when SD/HD = LOW, and the LNUM_INS bit of the
IOPROC_DISABLE register is set LOW.
4.10.6.6 TRS Error Correction
When TRS error correction and insertion is enabled, the GS1560A/GS1561 will generate
and insert 10-bit TRS code words as required.
TRS word generation will be performed in accordance with the timing parameters
generated by the flywheel to provide an element of noise immunity. As a result, TRS
correction will only take place if the flywheel is enabled, (FW_EN/DIS = HIGH).
In addition, the TRS_INS bit of the IOPROC_DISABLE register must be set LOW.
4.10.7 EDH Flag Detection
As described in EDH CRC Error Detection on page 57, the GS1560A/GS1561 can detect
EDH packets in the received data stream. The EDH flags for ancillary data, active picture
and full field areas are extracted from the detected EDH packets and placed in the
EDH_FLAG register of the device (Table 4-15).
One set of flags is provided for both fields 1 and 2. Field 1 flag data will be overwritten
by field 2 flag data.
The EDH_FLAG register may be read by the host interface at any time during the
received frame except on the lines defined in SMPTE RP165 where these flags are
updated.
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NOTE 1: By programming the ANC_TYPE1 register (005h) with the DID word for EDH
ancillary packets, the application layer may detect a high-to-low transition on either the
YANC or CANC output pin of the GS1560A/GS1561 to determine (a) when EDH packets
have been received by the device, and (b) when the EDH_FLAG register can be read by
the host interface. See Ancillary Data Detection and Indication on page 47 for more
information on ancillary data detection and indication.
NOTE 2: The bits of the EDH_FLAG register are sticky and will not be cleared by a read
operation. If the GS1560A/GS1561 is decoding a source containing EDH packets, where
EDH flags may be set, and the source is replaced by one without EDH packets, the
EDH_FLAG register will not be cleared.
NOTE 3: The GS1560A/GS1561 will detect EDH flags, but will not update the flags if an
EDH CRC error is detected. Gennum's GS1532 Multi-Rate Serializer allows the host to
individually set EDH flags.
Table 4-15: Host Interface Description for EDH Flag Register
Register Name
Bit
Name
Description
R/W
Default
EDH_FLAG
Address: 003h
15
–
Not Used.
–
–
14
ANC-UES out
Ancillary Unknown Error Status Flag.
R
0
13
ANC-IDA out
Ancillary Internal device error Detected Already Flag.
R
0
12
ANC-IDH out
Ancillary Internal device error Detected Here Flag.
R
0
11
ANC-EDA out
Ancillary Error Detected Already Flag.
R
0
10
ANC-EDH out
Ancillary Error Detected Here Flag.
R
0
9
FF-UES out
Full Field Unknown Error Status Flag.
R
0
8
FF-IDA out
Full Field Internal device error Detected Already Flag.
R
0
7
FF-IDH out
Full Field Internal device error Detected Here Flag.
R
0
6
FF-EDA out
Full Field Error Detected Already Flag.
R
0
5
FF-EDH out
Full Field Error Detected Here Flag.
R
0
4
AP-UES out
Active Picture Unknown Error Status Flag.
R
0
3
AP-IDA out
Active Picture Internal device error Detected Already
Flag.
R
0
2
AP-IDH out
Active Picture Internal device error Detected Here Flag.
R
0
1
AP-EDA out
Active Picture Error Detected Already Flag.
R
0
0
AP-EDH out
Active Picture Error Detected Here Flag.
R
0
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4.11 Parallel Data Outputs
Data outputs leave the device on the rising edge of PCLK as shown in Figure 4-7 and
Figure 4-8.
The data may be scrambled or unscrambled, framed or unframed, and may be presented
in 10-bit or 20-bit format. The output data bus width is controlled independently from
the internal data bus width by the 20bit/10bit input pin.
Likewise, the output data format is defined by the setting of the external SD/HD,
SMPTE_BYPASS and DVB_ASI pins. Recall that in slave mode, these pins are set by the
application layer as inputs to the device. In master mode, however, the GS1560A sets the
SD/HD and SMPTE_BYPASS pins as output status signals.
4.11.1 Parallel Data Bus Buffers
The parallel data outputs of the GS1560A/GS1561 are driven by high-impedance buffers
which support both LVTTL and LVCMOS levels. These buffers use a separate power
supply of +3.3V DC supplied via the IO_VDD and IO_GND pins.
All output buffers, including the PCLK output, may be driven to a high-impedance state
if the RESET_TRST signal is asserted LOW.
Note that the timing characteristics of the parallel data output buffers are optimized for
10-bit HD operation. As shown in Figure 4-7, the output data hold time for HD is 1.5ns.
Due to this optimization, however, the output data hold time for SD data is so small that
the rising edge of the PCLK is nearly incident with the data transition. To improve output
hold time at SD rates, the PCLK output is inverted is SD mode, (SD/HD = HIGH). This is
shown in Figure 4-8.
HD MODE
PCLK
DOUT[19:0]
DATA
Control signal
output
tOH
tOD
Figure 4-7: HD PCLK to Data Timing
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SD MODE
PCLK
DOUT[19:0]
DATA
Control signal
output
tOH
tOD
Figure 4-8: SD PCLK to Data Timing
4.11.2 Parallel Output in SMPTE Mode
When the device is operating in SMPTE mode, (see SMPTE Functionality on page 36),
both SD and HD data may be presented to the output bus in either multiplexed or
demultiplexed form depending on the setting of the 20bit/10bit input pin.
In 20-bit mode, (20bit/10bit = HIGH), the output data will be word aligned,
demultiplexed luma and chroma data. Luma words will always appear on DOUT[19:10]
while chroma words will occupy DOUT[9:0].
In 10-bit mode, (20bit/10bit = LOW), the output data will be word aligned, multiplexed
luma and chroma data. The data will be presented on DOUT[19:10], and the device will
force DOUT[9:0] LOW.
4.11.3 Parallel Output in DVB-ASI Mode
When operating in DVB-ASI mode, (see DVB-ASI Functionality on page 44), the
GS1560A/GS1561 automatically configures the output port for 10-bit operation
regardless of the setting of the 20bit/10bit pin.
The extracted 8-bit data words will be presented on DOUT[17:10] such that DOUT17 =
HOUT is the most significant bit of the decoded transport stream data and DOUT10 =
AOUT is the least significant bit.
In addition, DOUT19 and DOUT18 will be configured as the DVB-ASI status signals
SYNCOUT and WORDERR respectively. See Status Signal Outputs on page 45 for a
description of these DVB-ASI specific output signals.
DOUT[9:0] will be forced LOW when the GS1560A/GS1561 is operating in DVB-ASI
mode.
4.11.4 Parallel Output in Data-Through Mode
When operating in Data-Through mode, (see Data Through Mode on page 45), the
GS1560A/GS1561 presents data to the output data bus without performing any
decoding, descrambling or word-alignment.
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As described in Data Through Mode on page 45, the data bus outputs will be forced to
logic LOW if the device is set to operate in master mode but cannot identify SMPTE TRS
ID words in the input data stream.
4.11.5 Parallel Output Clock (PCLK)
The frequency of the PCLK output signal of the GS1560A/GS1561 is determined by the
output data format. Table 4-16 below lists the possible output signal formats and their
corresponding parallel clock rates. Note that DVB-ASI output will always be in 10-bit
format, regardless of the setting of the 20bit/10bit pin.
Table 4-16: Parallel Data Output Format
Status / Control Signals*
DOUT
[19:10]
DOUT
[9:0]
PCLK
20bit/
10bit
SD/HD
SMPTE_BYPASS
DVB_ASI
20bit DEMULTIPLEXED SD
LUMA
CHROMA
13.5MHz
HIGH
HIGH
HIGH
LOW
10bit MULTIPLEXED SD
LUMA /
CHROMA
FORCED
LOW
27MHz
LOW
HIGH
HIGH
LOW
20bit DEMULTIPLEXED HD
LUMA
CHROMA
74.25 or
74.25/
1.001MHz
HIGH
LOW
HIGH
LOW
10bit MULTIPLEXED HD
LUMA /
CHROMA
FORCED
LOW
148.5 or
148.5/
1.001MHz
LOW
LOW
HIGH
LOW
DVB-ASI
DATA
FORCED
LOW
27MHz
HIGH
HIGH
LOW
HIGH
DVB-ASI
DATA
FORCED
LOW
27MHz
LOW
HIGH
LOW
HIGH
20bit DEMULTIPLEXED SD
DATA
DATA
13.5MHz
HIGH
HIGH
LOW
LOW
10bit MULTIPLEXED SD
DATA
FORCED
LOW
27MHz
LOW
HIGH
LOW
LOW
20bit DEMULTIPLEXED HD
DATA
DATA
74.25 or
74.25/
1.001MHz
HIGH
LOW
LOW
LOW
10bit MULTIPLEXED HD
DATA
FORCED
LOW
148.5 or
148.5/
1.001MHz
LOW
LOW
LOW
LOW
Output Data Format
SMPTE MODE
DVB-ASI MODE
10bit DVB-ASI
DATA-THROUGH MODE**
*NOTE1: Recall that SD/HD, SMPTE_BYPASS, and DVB_ASI are input control pins in slave mode to be set by the application layer, but
the SD/HD and SMPTE_BYPASS pins are output status signals set by the device in master mode.
**NOTE 2: Data-Through mode is only available in slave mode Data Through Mode on page 45.
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4.12 GSPI Host Interface
The GSPI, or Gennum Serial Peripheral Interface, is a 4-wire interface provided to allow
the host to enable additional features of the device and /or to provide additional status
information through configuration registers in the GS1560A/GS1561.
The GSPI comprises a serial data input signal SDIN, serial data output signal SDOUT, an
active low chip select CS, and a burst clock SCLK. The burst clock must have a duty cycle
between 40% and 60%.
Because these pins are shared with the JTAG interface port, an additional control signal
pin JTAG/HOST is provided. When JTAG/HOST is LOW, the GSPI interface is enabled.
When operating in GSPI mode, the SCLK, SDIN, and CS signals are provided by the host
interface. The SDOUT pin is a high-impedance output allowing multiple devices to be
connected in parallel and selected via the CS input. The interface is illustrated in
Figure 4-9.
All read or write access to the GS1560A/GS1561 is initiated and terminated by the host
processor. Each access always begins with a 16-bit command word on SDIN indicating
the address of the register of interest. This is followed by a 16-bit data word on SDIN in
write mode, or a 16-bit data word on SDOUT in read mode.
Application Host
GS1560A / GS1561
SCLK
SCLK
SDOUT
SDIN
CS
CS
SDIN
SDOUT
Figure 4-9: Gennum Serial Peripheral Interface (GSPI)
4.12.1 Command Word Description
The command word is transmitted MSB first and contains a read/write bit, nine reserved
bits and a 6-bit register address. Set R/W = '1' to read and R/W = '0' to write from the GSPI.
Command words are clocked into the GS1560A/GS1561 on the rising edge of the serial
clock SCLK. The appropriate chip select, CS, signal must be asserted low a minimum of
1.5ns (t0 in Figure 4-12 and Figure 4-13) before the first clock edge to ensure proper
operation.
Each command word must be followed by only one data word to ensure proper
operation.
MSB
LSB
R/W
RSV
RSV
RSV
RSV
RSV
RSV
RSV
RSV
RSV
A5
A4
A3
A2
A1
A0
Figure 4-10: Command Word
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MSB
LSB
D15
D14
D13
D12
D11
D9
D10
D7
D8
D6
D4
D5
D3
D2
D1
D0
Figure 4-11: Data Word
4.12.2 Data Read and Write Timing
Read and write mode timing for the GSPI interface is shown in Figure 4-12 and
Figure 4-13 respectively. The maximum SCLK frequency allowed is 6.6MHz.
When writing to the registers via the GSPI, the MSB of the data word may be presented
to SDIN immediately following the falling edge of the LSB of the command word. All
SDIN data is sampled on the rising edge of SCLK.
When reading from the registers via the GSPI, the MSB of the data word will be available
on SDOUT 12ns following the falling edge of the LSB of the command word, and thus
may be read by the host on the very next rising edge of the clock. The remaining bits are
clocked out by the GS1560A on the negative edges of SCLK.
duty
cycle
t2
t0
t4
t5
period
SCLK
CS
t3
input data
setup time
RSV
RSV
t6
SDIN
RSV
R/W
RSV
RSV
RSV
RSV
RSV
RSV
A4
A5
A3
A2
A1
output data
hold time
A0
SDOUT
D15
D14
D13
D12
D11
D10
D9
D8
D7
D6
D5
D4
D3
D2
D1
D0
Figure 4-12: GSPI Read Mode Timing
t2
t0
duty
cycle
t4
period
SCLK
CS
SDIN
R/W
RSV
RSV
RSV
RSV
t3
input data
setup time
RSV
RSV
RSV
RSV
RSV
A5
A4
A3
A2
A1
A0
D15
D14
D13
D12
D11
D10
D9
D8
D7
D6
D5
D4
D3
D2
D1
D0
Figure 4-13: GSPI Write Mode Timing
4.12.3 Configuration and Status Registers
Table 4-17 summarizes the GS1560A/GS1561's internal status and configuration
registers.
All of these registers are available to the host via the GSPI and are all individually
addressable.
Where status registers contain less than the full 16 bits of information however, two or
more registers may be combined at a single logical address.
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Table 4-17: GS1560A Internal Registers
Address
Register Name
See Section
000h
IOPROC_DISABLE
Section 4.10.6
001h
ERROR_STATUS
Section 4.10.5
003h
EDH_FLAG
Section 4.10.7
004h
VIDEO_STANDARD
Section 4.10.4
005h - 009h
ANC_TYPE
Section 4.10.2.1
00Ch - 00Dh
VIDEO_FORMAT
Section 4.10.3
00Eh - 011h
RASTER_STRUCTURE
Section 4.10.4
012h - 019h
EDH_CALC_RANGES
Section 4.10.5.2
01Ah
ERROR_MASK
Section 4.10.5
4.13 JTAG
When the JTAG/HOST input pin of the GS1560A/GS1561 is set HIGH, the host interface
port will be configured for JTAG test operation. In this mode, pins 27 through 30 become
TMS, TDO, TDI, and TCK. In addition, the RESET_TRST pin will operate as the test reset
pin.
Boundary scan testing using the JTAG interface will be enabled in this mode.
There are two methods in which JTAG can be used on the GS1560A/GS1561:
1. As a stand-alone JTAG interface to be used at in-circuit ATE (Automatic Test
Equipment) during PCB assembly; or
2. Under control of the host for applications such as system power on self tests.
When the JTAG tests are applied by ATE, care must be taken to disable any other devices
driving the digital I/O pins. If the tests are to be applied only at ATE, this can be
accomplished with tri-state buffers used in conjunction with the JTAG/HOST input
signal. This is shown in Figure 4-14.
Application HOST
GS1560A / GS1561
CS_TMS
SCLK_TCK
SDIN_TDI
SDOUT_TDO
JTAG_HOST
In-circuit ATE probe
Figure 4-14: In-Circuit JTAG
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Alternatively, if the test capabilities are to be used in the system, the host may still
control the JTAG/HOST input signal, but some means for tri-stating the host must exist
in order to use the interface at ATE. This is represented in Figure 4-15.
Application HOST
GS1560A / GS1561
CS_TMS
SCLK_TCK
SDIN_TDI
SDOUT_TDO
JTAG_HOST
Tri-State
In-circuit ATE probe
Figure 4-15: System JTAG
Please contact your Gennum representative to obtain the BSDL model for the
GS1560A/GS1561.
4.14 Device Power Up
The GS1560A/GS1561 has a recommended power supply sequence. To ensure correct
power up, power the CORE_VDD pins before the IO_VDD pins.
Device pins may also be driven prior to power up without causing damage.
To ensure that all internal registers are cleared upon power-up, the application layer
must hold the RESET_TRST signal LOW for a minimum of 1ms after the core power
supply has reached the minimum level specified in Table 2-1. See Figure 4-16.
4.15 Device Reset
In order to initialize all internal operating conditions to their default states the
application layer must hold the RESET_TRST signal LOW for a minimum of treset = 1ms.
When held in reset, all device outputs will be driven to a high-impedance state.
+1.65V
+1.8V
CORE_VDD
treset
treset
Reset
Reset
RESET_TRST
Figure 4-16: Reset Pulse
GS1560A/GS1561 HD-LINX® II Dual-Rate Deserializer
Data Sheet
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June 2009
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5. Application Reference Design
5.1 GS1560A Typical Application Circuit (Part A)
EQ_VCC
3
1K
2N4402
2
1
1
2
2N4400
3
CD1b
EQ_VCC
2K2
EQ_VCC
10K
10n
10n
GND_EQ
6.4n
1
2
3
4
5
6
7
8
GND_EQ
SDI
1u
75
1u
75
37R4
GND_EQ
CLI
VCCA
VEEA
SDI
SDI
VEEA
RSVD
RSVD
MUTE/CD
VCC
VEE
SDO
SDO
VEE
MCLADJ
BYPASS
16
15
14
13
12
11
10
9
GND_EQ
DDI1
DDI1b
GND_EQ
GS1524
EQ_VCC
GND_EQ
1u
1
2
3
EQ_VCC
HEADER
0
GND_EQ
POT
0
GND_EQ
EQ_VCC
3
1K
2
2
2N4400
1
1
2N4402
3
CD2b
EQ_VCC
EQ_VCC
2K2
10K
10n
10n
GND_EQ
6.4n
GND_EQ
SDI
1
2
3
4
5
6
7
8
1u
75
1u
75
37R4
GND_EQ
CLI
VCCA
VEEA
SDI
SDI
VEEA
RSVD
RSVD
MUTE/CD
VCC
VEE
SDO
SDO
VEE
MCLADJ
BYPASS
16
15
14
13
12
11
10
9
GND_EQ
DDI2
DDI2b
GND_EQ
GS1524
1u
EQ_VCC
GND_EQ
1
2
3
EQ_VCC
HEADER
0
0
GND_EQ
POT
GND_EQ
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Data Sheet
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5.2 GS1560A Typical Application Circuit (Part B)
20bit/10bitb
20bit/10bitb
IOPROC_EN/DISb
IOPROC_EN/DISb
SDO_EN/DISb
1
2
IPSEL
JTAG/HOSTb
O/P
3
NC
GND
JTAG/HOSTb
MASTER/SLAVEb
10n
GND
8
VCO_VCC
1u
GND_VCO
VCC
GND
VCTR
FW_EN/DISb
IPSEL
MASTER/SLAVEb
GO1555
(GO1525)
VCO_VCC
GND_VCO
SMPTE_BYPASSb
2 k2
SD/HDb
2 k2
DVB_ASI
2 k2
RC_BYPb
2 k2
10n
VCO_VCC
7
5
GND_VCO
GND
6
4
SDO_EN/DISb
FW_EN/DISb
GND_VCO
GND_VCO
SMPTE_BYPASSb
SD/HDb
DVB_ASI
10n
RC_BYPb
4K75 +/- 1%
GND_VCO
NOTE: SMPTE_BYPASSb, SD/HDb, DVB_ASI, and RC_BYPb
are INPUTS in slave mode (MASTER/SLAVEb = LOW), and
are OUTPUTS in master mode (MASTER/SLAVEb = HIGH).
4K75 +/- 1%
2 n2
0
+1.8V
10n
100n
GND_VCO
GND_VCO
GND_D
39K2
PCLK
75
GND_VCO
LOCK
MASTER/SLAVEb
RC_BYPb
PCLK
GND_A
10n
1u
1u
10n
0
DATA19
DATA18
+3.3V
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
+1.8V_A
CD1b
4u7
DDI1
10n
GND_EQ
4u7
DDI1b
DVB_ASI
IPSEL
SD/HDb
20bit/10bitb
IOPROC_EN/DISb
CD2b
4u7
DDI2
10n
GND_EQ
4u7
DDI2b
SMPTE_BYPASSb
+1.8V_A
281 +/-1%
CP_VDD
PDBUFF_GND
PD_VDD
BUFF_VDD
CD1
DDI_1
TERM1
DDI_1
DVB_ASI
IPSEL
SD/HD
20bit/10bit
IOPROC_EN/DIS
CD2
DDI_2
TERM2
DDI_2
SMPTE_BYPASS
RSET
CD_VDD
GS1560A
SDO_EN/DIS
CD_GND
SDO
SDO
RESET_TRST
JTAG/HOST
CS_TMS
SDOUT_TDO
SDIN_TDI
SCLK_TCK
DATA_ERROR
FIFO_LD
CORE_GND
F
V
H
CORE_VDD
DOUT0
DOUT1
IO_GND
10n
GND_A
CP_GND
LB_CONT
CP_CAP
LF
VCO_VCC
VCO_GND
VCO
VCO
LOCKED
MASTER/SLAVE
RC_BYP
PCLK
CORE_GND
FW_EN/DIS
CANC
YANC
CORE_VDD
DOUT19
DOUT18
IO_VDD
80
79
78
77
76
75
74
73
72
71
70
69
68
67
66
65
64
63
62
61
+3.3V
F W _ E N / DISb
CANC
YANC
DATA[19..0]
0
+1.8V_A
10n
1u
10n
GND_D
IO_GND
DOUT17
DOUT16
DOUT15
DOUT14
DOUT13
DOUT12
IO_VDD
DOUT11
DOUT10
DOUT9
IO_GND
DOUT8
DOUT7
DOUT6
DOUT5
DOUT4
DOUT3
DOUT2
IO_VDD
60
59
58
57
56
55
54
53
52
51
50
49
48
47
46
45
44
43
42
41
DATA17
DATA16
DATA15
DATA14
DATA13
DATA12
+3.3V
DATA11
DATA10
DATA9
10n
DATA8
DATA7
DATA6
DATA5
DATA4
DATA3
DATA2
1u
GND_D
+3.3V
1u
10n
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
10n
GND_D
DATA1
DATA0
DATA_ERRORb
FIFO_LDb
10n
4 u7
BNC
JTAG/HOSTb
+1.8V_A
R, L, C form the output return
loss compensation network.
Values are subject to change.
SDO_EN/DISb
GND_A
H
V
F
+1.8V
C
GND_A
L
75
10n
75
R
GND_D
DATA_ERRORb
LOCK
YANC
CANC
FIFO_LDb
DATA_ERRORb
LOCK
YANC
CANC
FIFO_LDb
GND_A
R
L
4 u7
BNC
C
NOTE: To guarantee -15dB Output Return Loss
at HD rates, it is recommended that the GS1528
Multi-Rate Cable Driver be used.
SCLK_TCK
SDIN_TDI
SDOUT_TDO
CSb_TMS
RESET_TRSTb
GND_A
GS1560A/GS1561 HD-LINX® II Dual-Rate Deserializer
Data Sheet
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June 2009
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5.3 GS1561 Typical Application Circuit (Part A)
EQ_VCC
3
1K
2N4402
2
1
1
2
2N4400
3
CD1b
EQ_VCC
2K2
EQ_VCC
10K
10n
10n
GND_EQ
6.4n
1
2
3
4
5
6
7
8
GND_EQ
SDI
1u
75
1u
75
37R4
GND_EQ
CLI
VCCA
VEEA
SDI
SDI
VEEA
RSVD
RSVD
MUTE/CD
VCC
VEE
SDO
SDO
VEE
MCLADJ
BYPASS
16
15
14
13
12
11
10
9
GND_EQ
DDI1
DDI1b
GND_EQ
GS1524
EQ_VCC
GND_EQ
1u
1
2
3
EQ_VCC
HEADER
0
GND_EQ
POT
0
GND_EQ
EQ_VCC
3
1K
2
2N4402
2N4400
1
1
2
3
CD2b
EQ_VCC
EQ_VCC
2K2
10K
10n
10n
GND_EQ
6.4n
GND_EQ
SDI
1
2
3
4
5
6
7
8
1u
75
1u
75
37R4
GND_EQ
CLI
VCCA
VEEA
SDI
SDI
VEEA
RSVD
RSVD
MUTE/CD
VCC
VEE
SDO
SDO
VEE
MCLADJ
BYPASS
16
15
14
13
12
11
10
9
GND_EQ
DDI2
DDI2b
GND_EQ
GS1524
1u
EQ_VCC
GND_EQ
1
2
3
EQ_VCC
HEADER
0
0
GND_EQ
POT
GND_EQ
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Data Sheet
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June 2009
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5.4 GS1561 Typical Application Circuit (Part B)
20bit/10bitb
20bit/10bitb
IOPROC_EN/DISb
IOPROC_EN/DISb
SDO_EN/DISb
1
2
IPSEL
JTAG/HOSTb
O/P
3
NC
GND
JTAG/HOSTb
MASTER/SLAVEb
10n
GND
8
VCO_VCC
1u
GND_VCO
VCC
GND
VCO_VCC
GND_VCO
SMPTE_BYPASSb
2 k2
SD/HDb
2 k2
DVB_ASI
2 k2
10n
VCO_VCC
7
VCTR
FW_EN/DISb
IPSEL
MASTER/SLAVEb
GO1555
(GO1525)
5
GND_VCO
GND
6
4
SDO_EN/DISb
FW_EN/DISb
GND_VCO
GND_VCO
SMPTE_BYPASSb
SD/HDb
DVB_ASI
10n
4K7
GND_VCO
NOTE: SMPTE_BYPASSb, SD/HDb, and DVB_ASI are
INPUTS in slave mode (MASTER/SLAVEb = LOW), and
are OUTPUTS in master mode (MASTER/SLAVEb = HIGH).
4K7
2 n2
0
+1.8V
10n
GND_VCO
100n
GND_VCO
GND_D
39K2
PCLK
GND_VCO
75
DATA[19..0]
10n
1u
1u
10n
0
DATA19
DATA18
+3.3V
+1.8V_A
CD1b
DDI1
4u7
GND_EQ
DDI1b
4u7
4u7
GND_EQ
4u7
10n
SMPTE_BYPASSb
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
CP_VDD
PDBUFF_GND
PD_VDD
BUFF_VDD
CD1
DDI_1
TERM1
DDI_1
DVB_ASI
IPSEL
SD/HD
20bit/10bit
IOPROC_EN/DIS
CD2
DDI_2
TERM2
DDI_2
SMPTE_BYPASS
NC
NC
GS1561
1u
10n
GND_D
IO_GND
DOUT17
DOUT16
DOUT15
DOUT14
DOUT13
DOUT12
IO_VDD
DOUT11
DOUT10
DOUT9
IO_GND
DOUT8
DOUT7
DOUT6
DOUT5
DOUT4
DOUT3
DOUT2
IO_VDD
60
59
58
57
56
55
54
53
52
51
50
49
48
47
46
45
44
43
42
41
DATA17
DATA16
DATA15
DATA14
DATA13
DATA12
+3.3V
DATA11
DATA10
DATA9
10n
DATA8
DATA7
DATA6
DATA5
DATA4
DATA3
DATA2
1u
GND_D
+3.3V
1u
10n
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
DDI2b
10n
DVB_ASI
IPSEL
SD/HDb
20bit/10bitb
IOPROC_EN/DISb
CD2b
DDI2
10n
NC
NC
NC
NC
RESET_TRST
JTAG/HOST
CS_TMS
SDOUT_TDO
SDIN_TDI
SCLK_TCK
DATA_ERROR
FIFO_LD
CORE_GND
F
V
H
CORE_VDD
DOUT0
DOUT1
IO_GND
GND_A
CP_GND
LB_CONT
CP_CAP
LF
VCO_VCC
VCO_GND
VCO
VCO
LOCKED
MASTER/SLAVE
RSV
PCLK
CORE_GND
FW_EN/DIS
CANC
YANC
CORE_VDD
DOUT19
DOUT18
IO_VDD
80
79
78
77
76
75
74
73
72
71
70
69
68
67
66
65
64
63
62
61
+3.3V
PCLK
2K2
GND_A
F W _ E N / DISb
CANC
YANC
LOCK
MASTER/SLAVEb
0
GND_D
DATA_ERRORb
FIFO_LDb
JTAG/HOSTb
DATA1
DATA0
H
V
F
+1.8V
10n
GND_D
DATA_ERRORb
LOCK
YANC
CANC
FIFO_LDb
DATA_ERRORb
LOCK
YANC
CANC
FIFO_LDb
SCLK_TCK
SDIN_TDI
SDOUT_TDO
CSb_TMS
RESET_TRSTb
GS1560A/GS1561 HD-LINX® II Dual-Rate Deserializer
Data Sheet
27360 - 12
June 2009
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6. References & Relevant Standards
SMPTE 125M
Component video signal 4:2:2 – bit parallel interface
SMPTE 260M
1125 / 60 high definition production system – digital representation and
bit parallel interface
SMPTE 267M
Bit parallel digital interface – component video signal 4:2:2 16 x 9 aspect
ratio
SMPTE 274M
1920 x 1080 scanning analog and parallel digital interfaces for multiple
picture rates
SMPTE 291M
Ancillary Data Packet and Space Formatting
SMPTE 292M
Bit-Serial Digital Interface for High-Definition Television Systems
SMPTE 293M
720 x 483 active line at 59.94 Hz progressive scan production – digital
representation
SMPTE 296M
1280 x 720 scanning, analog and digital representation and analog
interface
SMPTE 352M
Video Payload Identification for Digital Television Interfaces
SMPTE RP165
Error Detection Checkwords and Status Flags for Use in Bit-Serial Digital
Interfaces for Television
SMPTE RP168
Definition of Vertical Interval Switching Point for Synchronous Video
Switching
GS1560A/GS1561 HD-LINX® II Dual-Rate Deserializer
Data Sheet
27360 - 12
June 2009
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7. Package & Ordering Information
7.1 Package Dimensions
Table X
CONTROL DIMENSIONS ARE IN MILLIMETERS.
Table Y
SYMBOL
80L
MILLIMETER
b
e
MIN
NOM
MAX
0.22
0.30
0.38
0.65 BSC
INCH
MIN
NOM
MAX
0.009 0.012 0.015
0.026 BSC
D2
12.35
0.486
E2
12.35
0.486
TOLERANCES OF FORM AND POSITION
aaa
0.20
0.008
bbb
0.20
0.008
ccc
0.10
0.004
ddd
0.13
0.005
NOTES:
Diagram shown is representative only. Table X is fixed for all pin sizes, and
Table Y is specific to the 80-pin package.
1. DIMENSIONS D1 AND E1 DO NOT INCLUDE MOLD PROTRUSION.
ALLOWABLE PROTRUSION IS 0.25mm PER SIDE. D1 AND E1 ARE
MAXIMUM PLASTIC BODY SIZE DIMENSIONS INCLUDING MOLD
MISMATCH.
2. DIMENSION b DOES NOT INCLUDE DAMBAR PROTRUSION.
ALLOWABLE DAMBAR PROTRUSION SHALL NOT CAUSE THE LEAD
WIDTH TO EXCEED THE MAXIMUM b DIMENSION BY MORE THAN
0.08mm. DAMBAR CAN NOT BE LOCATED ON THE LOWER RADIUS
OR THE FOOT. MINIMUM SPACE BETWEEN PROTRUSION AND AN
ADJACENT LEAD IS 0.07mm FOR 0.4mm AND 0.5mm PITCH PACKAGES.
GS1560A/GS1561 HD-LINX® II Dual-Rate Deserializer
Data Sheet
27360 - 12
June 2009
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7.2 Packaging Data
Parameter
Value
Package Type
14mm x 14mm 80-pin LQFP
Package Drawing Reference
JEDEC MS026
Moisture Sensitivity Level
3
Junction to Case Thermal Resistance, θj-c
11.6°C/W
Junction to Air Thermal Resistance, θj-a (at zero airflow)
39.9°C/W
Psi
0.6°C/W
Pb-free and RoHS Compliant
Yes
7.3 Solder Reflow Profiles
The device is manufactured with Matte-Sn terminations and is compatible with both
standard eutectic and Pb-free solder reflow profiles. The recommended standard
eutectic reflow profile is shown in Figure 7-1. MSL qualification was performed using
the maximum Pb-free reflow profile shown in Figure 7-2.
60-150 sec.
Temperature
10-20 sec.
230°C
220°C
3°C/sec max
183°C
6°C/sec max
150°C
100°C
25°C
Time
120 sec. max
6 min. max
Figure 7-1: Standard Eutectic Solder Reflow Profile
GS1560A/GS1561 HD-LINX® II Dual-Rate Deserializer
Data Sheet
27360 - 12
June 2009
77 of 79
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 7-2: Maximum Pb-free Solder Reflow Profile (Pb-free package)
7.4 Ordering Information
Part Number
Pb-free and
RoHS Compliant
Loop-Through
Package
Temperature Range
GS1560ACF
No
Yes
80-pin LQFP
0°C to 70°C
GS1560ACFE3
Yes
Yes
80-pin LQFP
0°C to 70°C
GS1561-CF
No
No
80-pin LQFP
0°C to 70°C
GS1561-CFE3
Yes
No
80-pin LQFP
0°C to 70°C
GS1560A/GS1561 HD-LINX® II Dual-Rate Deserializer
Data Sheet
27360 - 12
June 2009
78 of 79
DOCUMENT IDENTIFICATION
CAUTION
DATA SHEET
ELECTROSTATIC SENSITIVE DEVICES
The product is in production. Gennum reserves the right to make changes to
the product at any time without notice to improve reliability, function or
design, in order to provide the best product possible.
DO NOT OPEN PACKAGES OR HANDLE EXCEPT AT A
STATIC-FREE WORKSTATION
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Phone: +1 (905) 632-2996
Fax: +1 (905) 632-2055
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E-mail: [email protected]
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Phone: +91 (674) 653-4815
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Fax: +91 (674) 259-5733
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United Kingdom
Phone: +44 1279 714170
Web Site: http://www.gennum.co.jp
4281 Harvester Road
Burlington, Ontario L7L 5M4
Canada
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8F Jinnex Lakeview Bldg.
65-2, Bangidong, Songpagu
Seoul, Korea 138-828
Phone: +82-2-414-2991
Phone: (886) 2-8732-8879
Fax: +82-2-414-2998
Fax: (886) 2-8732-8870
E-mail: [email protected]
E-mail: [email protected]
Gennum Corporation assumes no liability for any errors or omissions in this document, or for the use of the circuits or devices described herein. The sale of
the circuit or device described herein does not imply any patent license, and Gennum makes no representation that the circuit or device is free from patent
infringement.
All other trademarks mentioned are the properties of their respective owners.
GENNUM and the Gennum logo are registered trademarks of Gennum Corporation.
© Copyright 2003 Gennum Corporation. All rights reserved.
www.gennum.com
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Data Sheet
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June 2009
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