MA-COM M31544 3g/hd/sd-sdi long reach adaptive cable equalizer with integrated jitter cleaner Datasheet

M31544, M31564
3G/HD/SD-SDI Long Reach Adaptive Cable Equalizer with Integrated
Jitter Cleaner
The M31544/64 are multi-rate, highly integrated, adaptive cable equalizers for SDI and DVB-ASI video as well as digital audio
applications. It provides adaptive, low noise, high gain equalization for 75 Ω coaxial cables at SDI and MADI data rates from
125 Mbps to 2.97 Gbps. The device is capable of compensating for losses accumulated across cable length up to 200 m when
operating at 2.97 Gbps.
The M31544/64 feature an integrated jitter cleaner, which automatically removes the jitter generated at HD-SDI and 3G-SDI
data rates at the output of the equalizer, eliminating the need for standalone reclockers at the input, reducing system cost,
complexity and power consumption. The jitter cleaner may be powered down and bypassed in applications where it is not
required to allow for optimized power consumption for each application.
The M31544 also features dual differential outputs, eliminating the need for additional circuitry and simplifying system design.
Both outputs feature programmable swing as well as de-emphasis for enabling the signal to be transmitted across 40" of FR4
trace. The second, optional output may be disabled for additional power savings.
The device operates using a single 2.5 V supply voltage and has extremely low power consumption with the equalizer and jitter
cleaner dissipating only 145 mW when one output driver is enabled. It may be used in either hardware mode, or controlled
through a standard four-wire serial digital interface. Furthermore, it features advanced diagnostic capabilities such as cable
length indication, loss of signal detection, and offers power management functions such as power down upon loss of signal.
The M31544/64 are offered in a green and RoHS compliant small footprint QFN package.
Features
• SMPTE 424M, SMPTE 292M, SMPTE 344M, SMPTE 259M, and
DVB-ASI compliant
• Robust adaptive cable equalization for up to 200 meters of Belden
1694A at 2.97 Gbps, up to 200 meters of Belden 1694A at
1.485 Gbps and up to 400 meters of Belden 1694A at 270 Mbps
• MADI (125 Mbps) compatible
• Integrated jitter cleaner for 3G/HD-SDI use with automatic rate
detection
• Individually controllable dual differential output drivers with
programmable 8 dB of de-emphasis
• Optional 6 dB flatband gain at input
• Cable length indication
• SD, HD and 3G Data Rate Detection
• Optional four-wire serial digital interface
• Very low power consumption: 145 mW (single output), 160 mW
(dual output)
• Power down and mute features
• Industrial operating temperature range: -40 °C to +85 °C
Applications
• Broadcast video routing and production switchers
• Broadcast video distribution amplifiers
• Broadcast video cameras and monitors
Functional Block Diagram
LOS
Mute
SDI
31544-DSH-001-B
Prog.
6 dB
Gain
Adaptive
EQ
Digital Interface
Jitter
Cleaner
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DE
& Prog.
Swing
Ctrl
SDO0
DE
& Prog.
Swing
Ctrl
SDO1
MUX
November 2013
Ordering Information
Part Number
Package
Operating Data Rate
Operating Temperature
M31544G-13*
24-pin QFN (RoHS compliant)
125–2970 Mbps
–40 °C to 85 °C
M31564G-13*
16-pin QFN (RoHS compliant)
125–2970 Mbps
–40 °C to 85 °C
* The letter ‘G’ designator after the part number indicates a RoHS-compliant package. Refer to www.mindspeed.com for additional information.
Revision History
Revision
Level
Date
Description
B
Release
November 2013
Removed M31554 support.
Updated power consumption specification Table 1-3.
Updated PCML I/O electrical characteristics Table 1-4.
Updated DC characteristics for digital I/O pins Table 1-5.
Added Analog and digital mute sections in the functional description, Section 4.1.3 and
Section 4.1.4.
Updated timing specifications for the 4-wire interface Table 4-7.
A
Release
July 2013
Initial Release.
M31544/64 Marking Diagram
13
315X4
XXXX.X
YYWW XX
31544-DSH-001-B
Part Revision
Part Number
Lot Number
Date Country Code
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1.0 Electrical Characteristics
Table 1-1.
Absolute Maximum Ratings
Symbol
AVDD
Parameter
Minimum
Maximum
Unit
-0.5
2.75
V
Analog power supply voltage
VIN,PCML
DC input voltage (PCML)
VSS - 0.5
AVDD + 0.5
V
VIN,CMOS
DC input voltage (CMOS)
VSS - 0.6
AVDD + 0.5
V
TSTORE
Storage temperature
-65
150
°C
TJUNC
Junction temperature
—
125
°C
VESD,HBM
Electrostatic discharge voltage (HBM)
-3000
3000
V
VESD,CDM
Electrostatic discharge voltage (CDM)
-500
500
V
VESD,mm
Electrostatic discharge voltage (mm)
-150
150
V
NOTES:
1.
Exposure of the device beyond the minimum/maximum limits may cause permanent damage.
2.
HBM and CDM per JEDEC Class 2 (JESD22-A114-B).
3.
Limits listed in the above table are stress limits only and do not imply functional operation within these limits.
Table 1-2.
Recommended Operating Conditions
Symbol
Parameter
Minimum
Typical
Maximum
Unit
AVDD
Analog power supply voltage
2.37
2.5
2.63
V
TCASE
Operating case temperature
-40
—
85
°C
—
—
13.8
°C/W
θJC
Junction to case thermal resistance
M31544/64
NOTES:
1.
Thermal resistance value is calculated using a 5% increase on the supply voltage and includes all temperature variations.
Table 1-3.
Power Consumption Specifications (1 of 2)
Symbol
AIDD
Parameter
One output enabled
Jitter cleaner OFF
Core Current
Consumption
Jitter cleaner ON
31544-DSH-001-B
Typical
Maximum
Unit
Intermediate output swing
42
54
mA
Maximum output swing
44
56
mA
Intermediate output swing
56
68
mA
Maximum output swing
57
70
mA
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Electrical Characteristics
Table 1-3.
Power Consumption Specifications (2 of 2)
Symbol
Parameter
Two outputs enabled
AIDD
Typical
Maximum
Unit
Intermediate output swing
48
61
mA
Maximum output swing
51
64
mA
Intermediate output swing
62
75
mA
Maximum output swing
64
78
mA
Intermediate output swing
105
142
mW
Jitter cleaner ON
140
179
mW
Jitter cleaner OFF
120
160
mW
Jitter cleaner ON
155
197
mW
Jitter cleaner OFF
Core Current
Consumption
Jitter cleaner ON
One output enabled
PTOTAL
Two outputs enabled
Jitter cleaner OFF
NOTES:
1.
Maximum current and maximum power consumption numbers are calculated using a 5% increase on the supply voltage, with jitter cleaner and
include all temperature and process variations.
2.
Jitter cleaner is automatically bypassed and turned off for SD data rates.
3.
When the jitter cleaner is turned off, the power consumption is data rate independent. Once the jitter cleaner is turned on, the power
consumption for HD and 3G data rates will be according to the table above.
Table 1-4.
PCML Input/Output Electrical Characteristics (1 of 2)
Symbol
Parameter
Note
Minimum
Typical
Maximum
Unit
—
19
—
2970
Mbps
—
720
800
880
mVPP
1
15
18
—
dB
10
15
—
Input
DR
NRZ data rate
VIN
Input voltage swing
S11
Input Return Loss
5 MHz to 1.5 GHz
1.5 GHz to 3 GHz
Output
VOUT
VOCM
Differential output swing
Output Common Mode Voltage
tR/tF
Output rise/fall time (20% - 80%)
DE
Output De-emphasis range
Low output swing
—
250
365
480
mVPPD
Intermediate output swing
—
390
555
720
Maximum output swing
—
540
740
940
0.8V
—
0.4
0.8
0.9
1.0V
—
0.6
1.0
1.1
1.2V (Default)
—
0.8
1.2
1.3
2
—
90
130
ps
3
0
—
8
dB
SMPTE 292M
—
—
1483, 1485
—
Mbps
SMPTE424M
—
—
2967, 2970
—
Mbps
SMPTE 292M
—
—
2
—
MHz
SMPTE424M
—
—
4
—
MHz
asynchronous
—
—
—
15
ms
synchronous
—
—
—
1
µs
V
Jitter Cleaner
DR
FLBW
tLOCK,
Input data rate retimed
Loop bandwidth
Lock time
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Electrical Characteristics
Table 1-4.
PCML Input/Output Electrical Characteristics (2 of 2)
Symbol
Parameter
Note
Minimum
Typical
Maximum
Unit
—
—
300
mUI
Jitter Performance, Jitter Cleaner Bypassed
tJIT
Total jitter added at 270 Mbps
0 - 400 m
4, 5,6
Total jitter added at 1.485 Gbps
0 - 200 m
4, 5
—
200
400
Total jitter added at 2.97 Gbps
0 - 100 m
4, 5
—
—
230
100 - 140 m
—
—
320
140 - 180 m
—
—
450
180 - 200 m
—
450
—
Jitter Performance, Jitter Cleaner Enabled
tJIT
Total jitter added at 1.485 Gbps
0 - 200 m
4, 5, 6
—
50
100
Total jitter added at 2.97 Gbps
0 - 200 m
4, 5, 6
—
100
170
mUI
NOTES:
1.
Typical values measured on Mindspeed evaluation board MH12-D670. Values depend on layout.
2.
Measured using a clock pattern with 50% duty cycle and consisting of 10 Consecutive Identical Digits (10 CID).
3.
Programmable in 2 dB steps.
4.
Measured according to SMPTE RP184 and SMPTE RP192. Using Belden 1694A cable.
5.
Measured using PRBS10 test pattern with default output swing.
6.
Jitter cleaner can only be used for HD and 3G data rates, it is automatically bypassed and powered down for SD data rates.
Table 1-5.
DC Characteristics for Digital I/O pins
Symbol
Parameter
VOH
Digital output logic high
VOL
Digital output logic low
VIH
Digital input logic high
VIL
Digital input logic low
CIN
Input capacitance
VIF
Digital input logic float
Reference
MF0, MF1and MF3
MODE_SEL, SDO1_DISABLE, xCS, MF0,
MF1, MF2 and MF3
MF0
Note
Minimum
Typical
Maximum
Unit
1
0.85 x AVDD
AVDD
—
V
2
—
0
0.15 x AVDD
V
—
0.75 x AVDD
—
AVDD
V
—
0
—
0.25 x AVDD
V
—
—
10
—
pF
—
0.35 x AVDD
—
0.65 x AVDD
V
NOTES:
1.
IOH = -4 mA.
2.
IOL = 4 mA.
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2.0 Typical Performance
Characteristics
Unless noted otherwise, typical performance applies for AVDD = 2.5 V, 25 °C ambient temperature, 800 mVPPD
differential input/output data swing, PRBS 210 – 1 data pattern at 2.97 Gbps,
Figure 2-1.
Eye Diagram @2.97 Gbps
Unequalized Signal, After 200 m
Belden 1694A Cable
Figure 2-3.
Eye Diagram @2.97 Gbps Equalized
Signal, After 200 m Belden 1694A
Cable (Jitter Cleaner Enabled)
31544-DSH-001-B
Figure 2-2.
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Eye Diagram @2.97 Gbps Equalized
Signal, After 200 m Belden 1694A
Cable (Jitter Cleaner Disabled)
6
3.0 Pinout Diagram, Pin Descriptions,
and Package Outline Drawing
31544-DSH-001-B
MF3
MF2
AVDD
MF1
Ground Pad
AVSS
M31544 Pinout Diagram
AVDD
24
23
22
21
20
19
AVSS
1
18 SDO1P
AVSS
2
17 SDO1N
SDIP
3
16 AVSS
SDIN
4
AVSS
5
14 SDO0N
MODE_SEL
6
13 xCS
M31544
4x4 mm 24-pin QFN
7
8
9
10
11
12
AGC-
MF0
MUTEREF
AVSS
15 SDO0P
AGC+
Figure 3-1.
M31544 Pinout
SDO1_DISABLE
3.1
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Pinout Diagram, Pin Descriptions, and Package Outline Drawing
3.2
M31544 Pin Description
Table 3-1.
M31544 Pin Descriptions (1 of 2)
Pin Name
Pin Number(s)
Type
Description
AVDD
20,24
Power
Positive power supply (2.5 V)
AVSS
1,2,5,12,16,23,
Ground Pad
Ground
Negative power supply (ground)
SDIP/SDIN
3,4
I, SDI
SDO0P/SDO0N
15,14
O, LVDS
Serial data output 0 (Positive/Negative)
SDO1P/SDO1N
18,17
O, LVDS
Serial data output 1(Positive/Negative)
MODE_SEL
6
I, LVCMOS
Mode Select (Internal pull down)
H: Software Mode Enabled (4-wire digital interface)
L: Hardware Mode Enabled
SDO1_DISABLE
7
I, LVCMOS
SDO1 disable pin (Internal pull up)
H: SDO1 disable
L: SDO1 enable
Hardware pin state overrides register settings configurations
AGC+/-
8,9
I/O, Analog
Equalizer loop filter capacitor (33 nF)
MF0
10
I/O, LVCMOS
Serial data input (Positive/Negative)
Hardware Mode (MODE_SEL =0)
Input, BYPASS
H: Bypass entirely the equalizer and jitter cleaner
F: Bypass only the jitter cleaner
L: Normal operation
Software Mode (MODE_SEL =1)
Output, Signal Detect Complement
H: No input signal is present or the cable length is above the MUTEREF threshold
L: Input signal is present and cable length is below the MUTEREF threshold
MUTEREF
11
I, Analog
xCS
13
I, LVCMOS
Mute reference input.
Defines the cable length threshold at which the signal detect will be asserted.
This pin can be left floating or can be grounded for maximum equalization
Hardware Mode (MODE_SEL =0)
Must be set LOW for normal operation.
Software Mode (MODE_SEL =1)
Chip Select Complement (Internal pull up)
MF1
19
I/O, LVCMOS
Hardware Mode (MODE_SEL =0)
Input, automatic sleep control. Sleep mode has precedence over MUTE and BYPASS.
H: Automatic power down when no input is present
L: The equalizer is always active
Software Mode (MODE_SEL =1)
4-wire: Signal Out (Internal pull up)
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Pinout Diagram, Pin Descriptions, and Package Outline Drawing
Table 3-1.
M31544 Pin Descriptions (2 of 2)
Pin Name
Pin Number(s)
Type
MF2
21
I, LVCMOS
Description
Hardware Mode (MODE_SEL =0)
Input, output buffer MUTE control, MUTE has precedence over BYPASS.
H: Outputs are muted
L: Normal operation
Software Mode (MODE_SEL =1)
4-wire: SCLK (Internal pull down)
MF3
22
I/O, LVCMOS
Hardware Mode (MODE_SEL =0)
Output, Signal Detect Complement
H: No input signal is present or the cable length is above the MUTEREF threshold
L: Input signal is present and cable length is below the MUTEREF threshold
Software Mode (MODE_SEL =1)
4-wire: Signal In (Internal pull down)
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Pinout Diagram, Pin Descriptions, and Package Outline Drawing
3.3
M31544 Package Information
The M31544 is packaged in a 4 mm x 4 mm footprint, 24-pin QFN SLP.
Figure 3-2.
M31544 Packaging Drawing
0.900 max
0.850 nom.
0.800 min.
31544-DSH-001-B
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Pinout Diagram, Pin Descriptions, and Package Outline Drawing
31544-DSH-001-B
MF2
AVDD
Ground Pad
MF3
M31564 Pinout Diagram
AVDD
16
15
14
13
AVSS
1
12
MF1
SDIP
2
11
SDOP
SDIN
3
10
SDON
MODE_SEL
4
9
xCS
M31564
5
6
7
8
MF0
MUTEREF
4x4 mm 16-pin QFN
AGC-
Figure 3-3.
M31564 Pinout
AGC+
3.4
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Pinout Diagram, Pin Descriptions, and Package Outline Drawing
3.5
M31564 Pin Description
Table 3-2.
M31564 Pin Descriptions
Pin Name
Pin
Number(s)
Type
AVDD
13,16
Power
Positive power supply (2.5 V)
AVSS
1, Ground
Pad
Ground
Negative power supply (ground)
SDIP/SDIN
2,3
I, SDI
Serial data input (Positive/Negative)
SDOP/SDON
11,10
O, LVDS
Serial data output (Positive/Negative)
MODE_SEL
4
I, LVCMOS
Mode Select (Internal pull down)
H: Software Mode Enabled (4-wire digital interface)
L: Hardware Mode Enabled
AGC+/-
5,6
I/O, Analog
Equalizer loop filter capacitor (33 nF)
MF0
7
I/O, LVCMOS
Description
Hardware Mode (MODE_SEL =0)
Input, BYPASS
H: Bypass entirely the equalizer and jitter cleaner
F: Bypass only the jitter cleaner
L: Normal operation
Software Mode (MODE_SEL =1)
Output, Signal Detect Complement
H: No input signal is present or the cable length is above the MUTEREF threshold
L: Input signal is present and cable length is below the MUTEREF threshold
MUTEREF
8
I, Analog
Mute reference input.
Defines the cable length threshold at which the signal detect will be asserted.
This pin can be left floating or can be grounded for maximum equalization.
xCS
9
I, LVCMOS
Hardware Mode (MODE_SEL =0)
Must be set LOW for normal operation.
Software Mode (MODE_SEL =1)
Chip Select Complement (Internal pull up)
MF1
12
I/O, LVCMOS
Hardware Mode (MODE_SEL =0)
Input, automatic sleep control. Sleep mode has precedence over MUTE and BYPASS.
H: Automatic power down when no input is present
L: Normal mode, the equalizer is always active
Software Mode (MODE_SEL =1)
4-wire: Signal Out (Internal pull up)
MF2
14
I, LVCMOS
Hardware Mode (MODE_SEL =0)
Input, output buffer MUTE control. MUTE has precedence over BYPASS.
H: Outputs are muted
L: Normal operation
Software Mode (MODE_SEL =1)
4-wire: SCLK (Internal pull down)
MF3
15
I/O, LVCMOS
Hardware Mode (MODE_SEL =0)
Output, Signal Detect Complement
H: No input signal is present or the cable length is above the MUTEREF threshold
L: Input signal is present and cable length is below the MUTEREF threshold
Software Mode (MODE_SEL =1)
4-wire: Signal In (Internal pull down)
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Pinout Diagram, Pin Descriptions, and Package Outline Drawing
3.6
M31564 Package Information
The M31564 is packaged in a 4 mm x 4 mm footprint, 16-pin QFN SLP.
Figure 3-4.
M31564 Packaging Drawing
0.900 max.
0.850 nom.
0.800 min.
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4.0 Functional Descriptions
The M31544/64 devices are part of the next generation cable equalizer family for SDI video applications. They
allow the transmission of data over 200 m Belden 1694A cable at 2.97 Gbps, 200 m at 1.485 Gbps and 400 m at
270 Mbps.
The equalizer has an integrated Automatic Rate Detect (ARD) circuit that allows the jitter cleaner to be enabled for
HD and 3G data rates and will be automatically bypassed and turned off for SD rates providing additional power
consumption savings. The jitter cleaner can provide retimed one or two serial data outputs with very low alignment
jitter. In addition, the jitter cleaner does not need the traditional 27 MHz crystal reference clock.
The M31544/64 support limited configuration through hardware pin settings (Hardware Mode) or for additional
configuration settings, a digital interface is also available (Software Mode).
Figure 4-1.
M31544 Block Diagram
M31544
Output Buffer0
Programmable Output Swing , Vcm
and De -emphasis
VCm
Input Buffer
5.6nH
Adaptive Equalization , 6dB
BNC
75Ω
75Ω
1uF
1uF
SDO0[P/N]
DRV
attenuation and signal detection
SDIP
SDIN
Adaptive
EQ
Jitter
Cleaner
Output Buffer1
Programmable Output Swing , Vcm
and De -emphasis
VCm
37.5Ω
DRV
MODE_SEL
SDO1_DISABLE
MF0
MF1
MF2
MF3
31544-DSH-001-B
Digital Interface
(Hardware or 4-wire mode acess)
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SDO1[P/N]
MUTE
MUTEREF
xCS
14
Functional Descriptions
Figure 4-2.
M31564 Block Diagram
M31564
Input Buffer
5.6nH
BNC
75Ω
75Ω
Output Buffer0
Adaptive Equalization , 6dB
Programmable Output Swing , Vcm
attenuation and signal detection
1uF
1uF
and De -emphasis
VCm
SDIP
SDIN
Adaptive
EQ
Jitter
Cleaner
DRV
SDO0[P/N]
37.5Ω
MODE_SEL
SDO1_DISABLE
MF0
MF1
MF2
MF3
4.1
Digital Interface
(Hardware or 4-wire mode acess)
MUTE
MUTEREF
xCS
High-Speed Input
Digital video coaxial cables are AC-coupled to the high-speed low-noise inputs (SDIP/SDIN). These are designed
to operate in both single-ended or differential mode. The typical application is single-ended into the non-inverting
SDI input with the inverting SDI input biased to match the bias on the input used.
The M31544/64 do not contain any internal input terminations and require both external input termination as well
as the matching circuit to exceed the SMPTE input return loss specifications. The package and IC design have
been optimized for high-speed performance, allowing them to exceed the SD/HD/3G SMPTE return loss
specification.
For non-inverting single-ended operation, the recommended input circuit is shown in Figure 4-1. For differential
operation, the matching/termination circuit on SDIP should be duplicated on SDIN.
4.1.1
Input Signal Detection
The high-speed input block offers a signal detect function that can be monitored either with pin.MF3 or
register.GenConfig bit[7]. The signal detect is also used to turn off the device if there is no signal present at the
input. If desired, this function can be bypassed using register.GenConfig bit[4:3] or by setting pin.MF1 = low in
hardware mode.
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Functional Descriptions
4.1.2
Adaptive Equalizer
In typical hardware mode operation, the adaptive equalization is enabled with pin.MF0 = Low (bypass disabled).
However, with pin.MF0= High, the adaptive equalization and DC restore circuit are bypassed and the input is fed
directly to the output buffers.
In software mode operation, the equalizer block can be bypassed by setting register.GenConfig.bit[5] to 1b.
The adaptive equalizer can be set to have a 6 dB gain for applications that have 400 mVPP launch amplitude
instead of 800 mVPP. To have this 6 dB gain, register 00h bit[2] (register.launch_ctrl) must be set to 1b.
Once there is a signal detected at the input of the equalizer, the adaptive equalizer has the ability to report what
length of Belden 1694A cable is being used. The cable length indicator results can be read on registers 05h bit[0]
and register 06h bit[7:0]. The formulas to calculate the estimated cable length are:
CL(m) = 0.625*CLI, for 0-250 m
CL(m) = 2.5*(CLI - 400) + 250, for >250 m
where CLI is the decimal value of the 9 bits from registers 05h bit[0] (msb) and register 06h bit[7:0] (lsb) and CL is
the estimated Belden 1694A cable length in meters. Table 4-1 has some of the decoded values for the cable length
indicator registers.
Table 4-1.
Cable Length Indicator Decoder
CLI
Results
Estimated Cable Length*
000000000
0m
000101000
25 m
001010000
50 m
001111000
75 m
010100000
100 m
011001000
125 m
011110000
150 m
100011000
175 m
101000000
200 m
101101000
225 m
110010000
250 m
110100100
300 m
110111000
350 m
111001100
400 m
111100000
450 m
* All cable length indicator values are approximate and are not guaranteed.
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Functional Descriptions
4.1.3
Analog MUTEREF
The M31544/64 have a pin.MUTEREF, the voltage at this pin will set the cable reach threshold. For full cable reach,
pin.MUTEREF should be left floating or grounded. For a typical application where a lower cable reach threshold is
desired, pin.xSD and pin.MUTE could be connected together and the device will control the maximum cable length
after which the outputs will mute forcing the equalizer outputs to logic zero.
The range for the pin.MUTEREF is 1.7V to 2.5V (AVDD), its voltage (VMUTEREF) can be calculated using the
formula:
VMUTEREF = VMUTEREF,max - [Cable Length (m) * VMUTEREF,step] in volts
Where:
• VMUTEREF,max = 2.5V
• VMUTEREF,step = 12.7mV/5m, for cable lengths < 250m
12.7mV/25m, for cable lengths > 250m
For example, for a cable length limit of 200m, we have:
VMUTEREF = 2.5V - [200m * (0.0127/5) V/m] = 1.992V
Note: For HD and 3G data rates, 200m is the maximum cable length supported. For other voltages, refer to
Figure 4-3.
Figure 4-3.
31544-DSH-001-B
M315x4 Analog MUTEREF Voltage vs. Cable Length
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Functional Descriptions
4.1.4
Digital MUTEREF
The digital mute reference allows to set the cable length limit without the need of external components to set a
voltage at pin.MUTEREF. The digital mute reference is enabled by setting register 03h bit[7] to 1b. Mute will force
the equalizer outputs to logic zero.
Table 4-2 Shows some of the different settings to set the appropriate cable length threshold
Table 4-2.
Digital MUTE Decoder
Digital Mute Ref Setting
Register 03h bit[6:2]
Cable Length Threshold
00000b
Mute when cable is > 10m
00010b
Mute when cable is > 25m
00101b
Mute when cable is > 50m
00111b
Mute when cable is > 75m
01010b
Mute when cable is > 100m
01100b
Mute when cable is > 125m
01111b
Mute when cable is > 150m
10001b
Mute when cable is > 175m
10100b
Mute when cable is > 200m
11001b
Mute when cable is > 250m
11010b
Mute when cable is > 300m
11011b
Mute when cable is > 350m
11100b
Mute when cable is > 400m
11110b
Mute when cable is > 450m
11111b
Never Mute
Notes:
• All cable length threshold values are approximate and are not guaranteed.
• For HD and 3G data rates, 200m is the maximum cable length supported
4.1.5
6 dB Attenuation
The M31544/64 provide an option to compensate for 6 dB of flat attenuation in applications where the launch
amplitude is a lot lower than 800 mVPPD. When the expected launch amplitude is between ~300 mVPPD and
~500 mVPPD, setting register.GenConfig,bit[2] to 1b will improve the equalizer’s performance especially for SD
rates. For HD and 3G rates, having the jitter cleaner enabled will result in the best performance in addition to the
6 dB compensation.
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Functional Descriptions
4.2
Jitter Cleaner
The jitter cleaner on the M31544/64 is functional only for HD and 3G video data rates and will be automatically
bypassed and turned off for SD rates providing additional power consumption savings.
The jitter cleaner features an Automatic Rate Detector (ARD) circuit that monitors the input signal rate and
automatically sets the Jitter Cleaner to the correct video rate. The data rate determined by the ARD block may be
read from register.JitCleaner,bit[7:6].
Table 4-3.
Jitter Cleaner Data Rate Detector
Register.JitCleaner,bit[7:6]
Data Rate Detected
00b
SD
01b
HD
10b
3G
11b
HD or 3G (used when the Jitter cleaner is bypassed)
The jitter cleaner is always in auto-bypass mode. If the ARD cannot determine the rate of the input data stream, it
will switch the Jitter Cleaner into bypass mode. This allows a data rate other than those specified to be passed
through the Jitter Cleaner.
4.3
High-Speed Outputs
The high-speed LVDS differential outputs after equalization are made available on the pin.SDO0[P/N] and
pin.SDO1[P/N] pins. Note that the M31564 has only one output available, pin.SDO0[P/N].
There are three output swings available - 400 mVPP, 600 mVPP (default) and 800 mVPP. The output swing levels
can only be controlled via register.Driver[1:0].bit[7:6].
In addition to controlling the output swing, the common mode voltage (VCM), can also be modified to Auto mode for
low common mode DC impedance, 0.8 V, 1.0 V or 1.2 V(default) by programming the desired value to
register.Driver[1:0].bit[5:4]. When the output driver is set to have automatic common mode voltage, it will sense the
downstream device input common mode and it will match it. Note, the maximum common mode voltage is 1.2 V.
In order to improve signal integrity when used in large systems, each output also comes equipped with
programmable de-emphasis (DE) for FR4 traces. There are four settings for output de-emphasis: 0 dB (or no DE),
2 dB, 4 dB, and 6 dB. In software mode, the output de-emphasis level for each output may be set by programming
the desired value to register.Driver[1:0].bit[3:1].
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Functional Descriptions
4.4
Control Modes
The M31544/64 may be configured in two separate control modes. The control mode is determined by the setting
of the MODE_SEL pin as shown in Table 4-4 below.
Table 4-4.
4.4.1
Control Mode Setting
MODE_SEL
Control Mode
L
Hardware Mode
H
Software Mode (4-wire digital interface)
Hardware Mode
Configuring the M31544/64 in hardware mode avoids the complication of adding a microcontroller, but offers limited
control options. When in hardware mode, the MF (Multi Function IO) pins are configured as shown in Table 4-5
below.
Table 4-5.
MF Pin Configuration in Hardware Mode (MODE_SEL = 0)
Pin Name
Hardware Mode Pin Name
Function
MF0
BYPASS
EQ and Jitter Cleaner bypass*
MF1
AUTOSLEEP
Power down EQ when no input signal is present
MF2
MUTE
Output mute
MF3
Signal Detect Complement
Input signal detect
* Please see pin descriptions for more details.
4.4.2
Software Mode (4-wire Digital Interface Access)
In this mode, a four-wire serial interface is used to program the device's internal registers, configuring the operation
of the M31544/64. When in software mode, MF[3:0] pins comprise the four-wire bus as well as additional
diagnostics as shown in Table 4-6 below.
Table 4-6.
31544-DSH-001-B
MF Pin Configuration in Software mode (4-wire Interface Mode, MODE_SEL = 1)
Pin Name
4-Wire Mode Pin Name
Function
MF0
Signal Detect Complement
Input signal detect
MF1
S0
Serial Data Output
MF2
SCK
Serial Data Clock
MF3
SI
Serial Data Input
xCS
xCS
Chip Select (Active Low)
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Functional Descriptions
4.5
Digital Interface
The 4-wire serial interface is selected with pin.MODE_SEL =H. The M31544/64 serial interface supports daisy
chain mode in order to control several devices.
4.5.1
4-Wire Serial Write
Figure 4-4 Illustrates the Serial Write Mode. To initiate the 16-bit long write sequence, xCS is driven low before the
rising edge of SCLK. On each rising edge of the clock, the 16 bits consisting of R/xW = 0 for write, ADDR (7-bit)
and DATA (8-bit), are latched into the input shift register through SI. After the last data bit is sent, xCS must be
driven high to complete the write operation.
Figure 4-4.
4-wire Serial WRITE Timing Diagram
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
SCLK
xCS
Tcs
Tch
Tds
SI
0
Tdh
A6
A5
A4
A3
A2
A1
A0
4.5.2
D7
D6
D5
D4
D3
D1
D2
D0
Tddz
Tzdd
SO
Tcot
DON’T CARE
4-Wire Serial Read
Figure 4-5 Illustrates the Serial Read Mode. To initiate the 32-bit long read sequence, xCS is driven low before the
rising edge of SCLK. On each rising edge of the clock, the first16 bits consisting of R/xW = 1 for read, ADDR (7-bit)
and dummy DATA (8 x “1” bits), are latched into the input shift register through SI. After the 16th bit is sent, xCS
must be toggled to start the second part of the operation. The second set of 16 x “1” bits are latched into the input
shift register through SI while the register address and data requested in the first part of the read transaction are
shifted out on SO on the failing edge of the clock. Finally, xCS must be driven high to complete the read operation.
Figure 4-5.
1
4-wire Serial READ Timing Diagram
2
3
4
5
6
7
8
9 ... 15
16
1
2
...
8
9
10
11
12
13
14
15
16
SCLK
xCS
Tcs
Tch
Tds
SI
SO
1
A6
Tcot
Tcs
Tch
Tcot
Tdh
A5
A4
A3
A2
A1
A0
8 bits
16 bits
Tdd
Tzdd
31544-DSH-001-B
Tddz
DON’T CARE
Tzdd
Tddz
1
A6
A1
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D6
D5
D4
D3
D2
D1
D0
1
21
Functional Descriptions
4.5.3
4-Wire Serial Interface Daisy Chain
The M31544/64 4-Wire interface supports daisy chain for an unlimited number of devices as shown in Figure 4-6.
Daisy chain operation provides an architectural advantage in that only one xCS and SCLK pin is required on the
host, as well as one SO and one SI pin irrespective of the number of devices. The SO data of each device shifts
into the next device SI.
Figure 4-6.
4-wire Serial Interface, Daisy Chain Configuration
SI
SO
xCS
SCLK
SO
SCLK
SI
M315x4
Dev N
SI
SO
SCLK
SI
M315x4
Dev2
xCS
M315x4
Dev1
xCS
Microcontroller
(HOST)
SO
SCLK
xCS
4.5.3.1
4-Wire Serial Interface Daisy Chain - Write
Figure 4-7 Illustrates the 4-Wire serial write operation for a daisy chain architecture consisting of N devices. To
initiate the (16 x N)-bit long write sequence, xCS is driven low before the first rising edge of SCLK. The difference
in the daisy chain configuration is that xCS remains low for (16 x N) clock cycles, where the 16-bit write operation
block consists of R/xW = 0 for write, ADDR (7-bit) and DATA (8-bit) as described in Section 4.5.1. At the beginning
of the last 16-bit block, each device receives the appropriate data to be written on its register table. Finally, xCS
must be driven high to complete the write operation.
Figure 4-7.
4-wire Serial Interface, Daisy Chain Write
SCLK
16 x N Clock Cycles
xCS
SI
Dev N Write Data
Dev N-1 Write Data
Dev N-2 Write Data
...
Dev 1 Write Data
S0Dev1/SIDev2
DON’T CARE
Dev N Write Data
Dev N-1 Write Data
...
Dev 2 Write Data
S0Dev2/SI Dev3
DON’T CARE
DON’T CARE
Dev N Write Data
...
Dev 3 Write Data
S0DevN-1/SIDevN
DON’T CARE
DON’T CARE
DON’T CARE
DON’T CARE
Dev N Write Data
Device XX Write Data, see section 4-Wire Serial Write for details
0
31544-DSH-001-B
A6
A5
A4
A3
A2
A1
A0
D7
D6
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D4
D3
D2
D1
D0
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Functional Descriptions
4.5.3.2
4-Wire Serial Interface Daisy Chain - Read
Figure 4-8 Illustrates the 4-Wire serial read operation for a daisy chain architecture consisting of N devices. To
initiate the (32 x N)-bit long read sequence, xCS is driven low before the first rising edge of SCLK. The difference
in the daisy chain configuration is that xCS remains low for (16 x N) clock cycles to send the appropriate read data
to each device, where the 16-bit read operation block consists of R/xW = 1 for read, ADDR (7-bit) and DATA (8-bit)
as described in Section 4.5.2.
The second set of (16 x N) “1” bits are latched into the input shift register through SI while the register address and
data requested in the first part of the read transaction are shifted out on SO. Finally, xCS must be driven high to
complete the write operation.
Figure 4-8.
4-wire Serial Interface, Daisy Chain Write
Dev XX SI Read data, see section 4-Wire Serial Read for details
1
SCLK
A6
A5
A4
A3
A2
A1
A0
8 bits
16 x N Clock Cycles
16 x N Clock Cycles
xCS
Dev N Read
Data
SI
Dev N-1 Read
Data
S0
Dev N-2 Read
Data
Dev 1 Read
Data
...
16 x N bits
DON’T CARE
Dev N Read
Data
Dev N-1 Read
Data
Dev N-2 Read
Data
Dev 1 Read
Data
...
Dev XX SO Read data, see section 4-Wire Serial Read for details
1
Table 4-7.
A6
A5
A4
A2
A1
A0
D7
D6
D5
D4
D3
D2
D1
D0
4-wire Serial Interface Specifications
Timing Symbol
TFREQW
A3
Description
4-Wire clock Frequency
Min
Max
Unit
Stand Alone Mode
1
20
MHz
Daisy Chain Mode
1
15
TDCD
SCLK pulse width
40
60
%
Tds
SI Data set-up time (SCLK↑).
4
—
ns
Tdh
SI Data hold time (SCLK↑).
4
—
ns
Tcs
xCS set-up time (from xCS↓ to SCLK↑).
14
—
ns
Tch
xCS hold time (from xCS↑ to SCLK↑).
4
—
ns
Tcot
xCS off time (from xCS↑ to xCS↓).
1
—
1/TFREQW
• Between consecutive write commands to the same register
6
—
us
• After a write command to register 00h (reset)
8
—
us
• Between the two 16-bit frames of a read command for registers 00h, 04h, 05h and 06h
6
—
us
Tzdd
SO Read data output delay, Tri-State to Active (xCS↓)
—
16
ns
Tddz
SO Read data output delay, Active to Tri-State (xCS↑)
—
20
ns
Tdd
SO Read data output delay from SCLK↓
—
24
ns
In addition, the following restrictions apply:
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5.0 Control Register Descriptions
Table 5-1.
Register Summary
Address
Register
Bit 7
Bit 6
Bit 5
00h
GenConfig
signal_det
mute
bypass
01h
Driver0
output_swing0
offset_voltage0
02h
Driver1
output_swing1
offset_voltage1
03h
Misc
04h
JitCleaner
05h
Cable_Len1
06h
Cable_Len0
5.1
mutemode
Bit 4
Bit 3
sleep mode
digital_muteref
rate_indicator
Reserved
Bit 2
Bit 1
Bit 0
Default
R/W
lanch_ctrl
master_rst
acq_rst
08'h
R/W
de_emphasis0
Reserved
B0'h
R/W
de_emphasis1
Reserved
B0'h
R/W
jc_bypass
7C'h
R/W
80'h
R
na
R
na
R
Reserved
die_rev
Reserved
CLI_bit[8]
CLI_bit[7:0]
Address Register Description
Address:
Register Name:
Default Value:
Description:
00h
GenConfig
08'h
General Configuration Register
Bit(s)
Name
7
signal_det
Description
Default
0b: No Signal detected
Type
R
1b: Signal detected
6
mute
0b: Normal operation
0b
R/W
0b
R/W
01b
R/W
0b
R/W
0b
R/W
0b
R/W
1b: Equalizer muted
5
bypass
0b: Normal operation
1b: Equalizer bypassed
[4:3]
sleep_mode
00b: Forced enable of the equalizer
01b: Power down when no input signal detected
10b: Forced power down of the equalizer
11b: Reserved
2
launch_ctrl
0b: Equalizer expects 800 mV launch
1b: Equalizer expects 400 mV (6 dB attenuation)
1
master_rst
0b: No reset
1b: Reset of registers and state machine (self clearing)
0
acq_rst
0b: No reset
1b: Reset state machine only (self clearing)
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Control Register Descriptions
Address:
Register Name:
Default Value:
Description:
01h
Driver0
B0'h
Output Driver 0 Configuration Register
Bit(s)
Name
[7:6]
output_swing
Description
00b: Power down of driver 0
Default
Type
10b
R/W
11b
R/W
000b
R/W
0b
R/W
Default
Type
10b
R/W
11b
R/W
000b
R/W
0b
R/W
01b: 400 mV differential peak to peak swing
10b: 600 mV differential peak to peak swing
11b: 800 mV differential peak to peak swing
[5:4]
offset_voltage
00b: Auto mode to drive a receiver presenting a low common mode DC impedance
01b: 0.8 V output common mode
10b: 1 V output common mode
11b: 1.2 V output common mode
[3:1]
de_emphasis
000b: De-emphasis disable
001b: 2 dB de-emphasis
011b: 4 dB de-emphasis
101b: 6 dB de-emphasis
111b: 8 dB de-emphasis
0
Reserved
Address:
Register Name:
Default Value:
Description:
Reserved (set to default)
02h
Driver1
B0'h
Output Driver1 Configuration Register
Bit(s)
Name
[7:6]
output_swing
Description
00b: Power down of driver 1
01b: 400 mV differential peak to peak swing
10b: 600 mV differential peak to peak swing
11b: 800 mV differential peak to peak swing
[5:4]
offset_voltage
00b: Auto mode to drive a receiver presenting a low common mode DC impedance
01b: 0.8 V output common mode
10b: 1 V output common mode
11b: 1.2 V output common mode
[3:1]
de_emphasis
000b: De-emphasis disable
001b: 2 dB de-emphasis
011b: 4 dB de-emphasis
101b: 6 dB de-emphasis
111b: 8 dB de-emphasis
0
31544-DSH-001-B
Reserved
Reserved (set to default)
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Control Register Descriptions
Address:
Register Name:
Default Value:
Description:
03h
Misc
7C'h
MuteRef Configuration and Jitter Cleaner Bypass Register
Bit(s)
Name
7
muteref_mode
Description
0b: Analog MuteRef with external pin voltage
Default
Type
0b
R/W
1 1111b
R/W
1b: Digital MuteRef
[6:2]
digital_muteref
0 0000b: Mute when cable > 10 m
0 0010b: Mute when cable > 25 m
…
0 1010b: Mute when cable > 100 m
0 1100b: Mute when cable > 125 m
0 1111b: Mute when cable > 150 m
1 0001b: Mute when cable > 175 m
1 0100b: Mute when cable > 200 m
…
1 1001b: Mute when cable > 250 m
1 1010b: Mute when cable > 300 m
1 1011b: Mute when cable > 350 m
1 1100b: Mute when cable > 400 m
1 1110b: Mute when cable > 450 m
1 1111b: Never mute
1
Reserved
Reserved (set to default)
0b
R/W
0
jc_bypass
0b: Jitter cleaner active
0b
R/W
Default
Type
00b
R
00b
R/W
0001b
R
1b: Jitter cleaner bypassed
Address:
Register Name:
Default Value:
Description:
04h
JitCleaner
00'h
Jitter Cleaner Configuration and Status Register
Bit(s)
Name
[7:6]
rate_indicator
Description
00b: SD rate
01b: 1.5 Gbps
10b: 3 Gbps
11b: HD rates (1.5 Gbps or 3 Gbps)
[5:4]
Reserved
[3:0]
die_rev
Address:
Register Name:
Default Value:
31544-DSH-001-B
Reserved
0000b: Die revision
05h
Cable_Len1
na
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Control Register Descriptions
Description:
Adaptation Results of Equalizer
Bit(s)
Name
[7:1]
Reserved
0
CLI_bit[8]
Address:
Register Name:
Default Value:
Description:
Description
Default
Type
Reserved (set to default)
0b
R
Cable_length_ind[8]. Bit 8 of the cable length indication
NA
R
06h
Cable_Len0
na
Adaptation Results of Equalizer
Bit(s)
Name
[7:0]
CLI_bit[7:0]
Description
Cable_length[7:0]. Bits [7:0] of the cable length indication
Default
Type
NA
R
NOTES:
1.
A numerical value of 0 corresponds to the shortest cable. The maximum value allowed for the cable length indicator is 101111011.
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General Information:
Telephone: (949) 579-3000
Headquarters - Newport Beach
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Newport Beach, CA 92660
© 2011-2013 Mindspeed Technologies®, Inc. All rights reserved.
Information in this document is provided in connection with Mindspeed Technologies® ("Mindspeed®") products.
These materials are provided by Mindspeed as a service to its customers and may be used for informational
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no responsibility for errors or omissions in these materials. Mindspeed may make changes to specifications and
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