M02046-25 [TE]
3.3 5V Limiting Amplifier for Applications from 100 Mbps to 1.25 Gbps;
| 型号: | M02046-25 |
| 厂家: | 
TE CONNECTIVITY |
| 描述: | 3.3 5V Limiting Amplifier for Applications from 100 Mbps to 1.25 Gbps ATM 异步传输模式 电信 光电二极管 电信集成电路 |
| 文件: | 总27页 (文件大小:467K) |
| 中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
M02046-15
3.3/5V Limiting Amplifier for Applications from 100 Mbps to 1.25 Gbps
Rev V4
Features
Applications
• Pin compatible with the MC2046-2
• Operates with a 3.3V or 5V supply
• 2.8 mV typical input sensitivity at 1.25 Gbps
• Programmable input-signal level detect
• On-chip DC offset cancellation circuit
• CMOS and PECL Signal Detect output variants
• Output Jam Function
• 1.06 Gbps Fibre Channel
• 1.25 Gbps Ethernet
• 1.25 Gbps SDH/SONET
•
SDH/SONET 155 Mbps Transceivers
• FTTx and Media Converters
• Fast Ethernet Receivers
• FDDI 125 Mbps Receivers
• ESCON Receivers
• Low power (< 200 mW (M02046-15) at 3.3V including PECL load)
The M02046 is a highly integrated high-gain limiting amplifier that can be used with the same board layout and foot-
print as the MC2046-2 (refer to 02046-APP-004-X where X is the revision which will change if the application note is
revised). Featuring PECL outputs, the M02046 is intended for use in applications from 100 Mbps to 1.25 Gbps. Full
output swing is achieved even at minimum input sensitivity. The M02046 can operate with a 3.3V or 5V supply.
Included in the M02046 is a programmable signal-level detector, allowing the user to set thresholds at which the
logic outputs are enabled. The signal detect function has typically 2 dB (optical) of hysteresis which prevents chatter
at low input levels. A squelch function, which turns off the output when no signal is present, is provided by externally
connecting the LOS Status output to the JAM input.
The M02046-15 has a CMOS Status output and the M02046-25 has a PECL Status output. Both versions have a
CMOS LOS output.
Other available solutions: M02040-15 3.3/5V Limiting Amplifier for Applications to 2.125 Gbps (PECL outputs)
M02050-15 3.3/5V Limiting Amplifier for Applications to 2.5 Gbps (PECL outputs)
M02049-15 3.3/5V Limiting Amplifier for Applications to 4.3 Gbps (CML outputs)
M02043-15 3.3/5V Limiting Amplifier for Applications to 4.3 Gbps (CML outputs)
Typical Applications Diagram
12.1 kΩ
Jam
optional
I
REF
Biasing
+3.3 V
V
TT
AC-Coupled
to TIA
PECLP
PECLN
DINP
DINN
Clock Data
Recovery
Unit
Limiting
Amplifier
Output
Buffer
M02016
Photodiode
MON
Offset cancel
Level
Detect
AC or DC Coupled
(as described in
Applications Information)
Comparator
Regulator
Threshold
Setting
Circuit
ST
LOS
ST
V
V
CC3 CC
SET
R
ST
1
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M02046-15
3.3/5V Limiting Amplifier for Applications from 100 Mbps to 1.25 Gbps
Rev V4
Ordering Information
Part Number
Package
Operating Temperature
–40 °C to 85 °C
–40 °C to 85 °C
–40 °C to 85 °C
–40 °C to 85 °C
M02046-15*
M02046-25*
CMOS Status Output (CMOS LOS Output) in QSOP16 package
PECL Status Output (CMOS LOS Output) in QSOP16 package
Evaluation board with M02046-15 (CMOS Status Output)
Evaluation board with M02046-25 (PECL Status Output)
M02046-15EVM
M02046-25EVM
* The letter “G” designator after the part number indicates that the device is RoHS-compliant.
Revision History
Revision
Level
Date
Description
V4
Final
Final
May 2015
Updated logos and page layout. No content changes.
G (V3)
October 2007
Updated front page description to make it clear the part supports data rates down to 100 Mbps.
Update Section 4.1.3 describing input ac-coupling capacitor selection.
F (V2)
E (V1)
Final
Final
July 2005
June 2005
Correct Jam connection in block diagram and typical applications figures. Correct I
(reference current generation).
figure
REF
In the DC specifications, update R DIFF and added note 4. In the ac specifi-cations update V
and
IN
LOS
DJ. Updated R values and the typical LOS curve (Figure 4-2 - Figure 4-4). Added typical hysteresis
ST
curve (Figure 4-5).
D
Preliminary
April 2005
Corrected the ASIC revision number in this table. Update the Absolute Maximum specification for
I(LOS) and I(ST
). Add the following DC specification: I
.
CMOS
OL_CMOS
2
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M02046-15
3.3/5V Limiting Amplifier for Applications from 100 Mbps to 1.25 Gbps
Rev V4
Typical Eye Diagram
Pin Configuration
ST
V
1
2
3
4
5
6
7
8
16
15
14
13
12
11
10
9
I
SET
REF
NC
V
CC3
GND
CC
DINP
DINN
PECLP
PECLN
GND
M02046-x5
Date Code
NC
V
ST
CC3
JAM
LOS
Note: x is either a 1 or 2 as explained in the order-
ing information above
10 mVPP differential input
1.25 Gbps
160 mV/div
140 ps/div
3
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M02046-15
3.3/5V Limiting Amplifier for Applications from 100 Mbps to 1.25 Gbps
Rev V4
1.0 Product Specification
1.1
Absolute Maximum Ratings
These are the absolute maximum ratings at or beyond which the IC can be expected to fail or be damaged.
Reliable operation at these extremes for any length of time is not implied.
Table 1-1.
Symbol
Absolute Maximum Ratings
Parameter
Rating
Units
V
Power supply voltage (V -GND)
-0.5 to +5.75
-65 to +150
V
°C
V
CC
CC
T
Storage temperature
STG
PECLP, PECLN,
ST
PECL Output pins voltage
V
- 2 to V + 0.4
CC
CC
PECL
I(PECLP), I(PECLN),
I(ST
PECL Output pins maximum continuous current (delivered to load)
30
mA
)
PECL
|DINP - DINN|
DINP, DINN
Data input pins differential voltage
Data input pins voltage meeting |DINP - DINN| requirement
Signal detect threshold setting pin voltage
Output enable pin voltage
0.80
V
V
GND to V
GND to V
+ 0.4
+ 0.4
CC3
CC3
ST
V
SET
JAM
, LOS
GND to V + 0.4
V
CC
ST
CMOS Status Output pins voltage
GND to V + 0.4
V
CMOS
CC
I
Current into Reference input
+0 to -120
µA
µA
REF
I(LOS), I(ST
)
Current into CMOS Status Output pins
+3000 to -100
CMOS
1.2
Recommended Operating Conditions
Table 1-2.
Recommended Operating Conditions
Parameter
Rating
Units
Power supply: (V -GND) (apply no potential to V ) or
+5V ± 7.5% or +3.3V
± 7.5%
V
CC
CC3
(V -GND) (connect V to same potential as V )
CC3
CC3
CC
Junction temperature
-40 to +110
-40 to +85
°C
°C
Operating ambient
4
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M02046-15
3.3/5V Limiting Amplifier for Applications from 100 Mbps to 1.25 Gbps
Rev V4
1.3
DC Characteristics
V
CC = +3.3V 7.5% or +5V 7.5%, TA = -40°C to +85°C, unless otherwise noted.
Typical specifications are for VCC = 3.3V, TA = 25°C, unless otherwise noted.
Table 1-3.
DC Characteristics
Parameter
Symbol
Conditions
Min
Typ
Max
Units
I
Supply Current
PECL outputs un-loaded
–
26
38
mA
CC
)
)
(1
(1
V
PECL Output High Voltage
(PECLP, PECLN)
Single ended; 50Ω load to V - 2V
OUTHpecl
CC
V
-1.025
V
-0.952
V
V
-0.88
V
CC
CC
CC
CC
V
PECL Output Low Voltage
(PECLP, PECLN)
Single ended; 50Ω load to V - 2V
OUTLpecl
CC
V
-1.81
V
-1.71
CC
-1.62
V
Ω
V
CC
R DIFF
Differential Input Resistance
Measured between DINP and DINN
90
110
130
IN
)
)
)
)
(2
(2, 3
(2, 3
(2, 3
V
CMOS ST , LOS
High Voltage
Output External 4.7-10 kΩ pull up to V
2.75
V
–
OH_CMOS
CC
CC
)
(2
V
CMOS ST , LOS
Low Voltage
Output External 4.7-10 kΩ pull up to V
0
–
0.4
2.0
V
mA
V
OL_CMOS
CC
)
(2
I
CMOS ST , LOS
Output
V
determined by external pull up to V
–
–
OL_CMOS
OL
CC
Low Current (into device)
V
PECL ST Output High
ST terminated 50Ω to V - 2V
OH_PECL
CC
)
(1, 3, 4
Voltage
V
-1.115
V
-1.042
V
V
-0.97
CC
CC
CC
V
PECL ST Output Low
ST terminated 50Ω to V - 2V
V
OL_PECL
CC
)
(1, 3, 4
Voltage
V
-1.88
V
-1.78
-1.69
CC
CC
CC
V
JAM Input High Voltage
JAM Input Low Voltage
2.7
–
–
V
V
V
IH
CC
V
–
0.8
IL
Notes:
1. Limits apply between 0°C to +85°C. Below 0°C the minimum decreases by up to 40 mV.
2. M02046-15
3. M02046-25
4. When ST is terminated with a 510Ω resistor to ground, the ST output voltages are approximately the same as for V
and V
OUTLpecl
OUTHpecl
5
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M02046-15
3.3/5V Limiting Amplifier for Applications from 100 Mbps to 1.25 Gbps
Rev V4
1.4
AC Characteristics
V
CC = +3.3V 7.5% or +5V 7.5%, TA = -40°C to +85°C, input bit rate = 1.25 Gbps 223-1 PRBS unless
otherwise noted. Typical specifications are for VCC = 3.3V, TA = 25°C, unless otherwise noted.
Table 1-4.
AC Characteristics
Symbol
Parameter
Conditions
Min
Typ
Max
Units
-12
V
Differential Input Sensitivity
Input Overload
1.25 Gbps, BER < 10
–
1200
600
–
2.8
–
5
–
mV
mV
mV
IN(MIN)
-12
V
BER < 10 , differential input 1.25 Gbps
I(MAX)
-12
BER < 10 , single-ended input, 1.25 Gbps
–
–
v
RMS Input Referred Noise
LOS Programmable Range
Signal Detect/LOS Hysteresis
200
–
–
μV
n
RMS
V
Differential inputs
5
55
5.5
–
mV
dB
LOS
HYS
BW
(electrical); across LOS programmable range
2
3.5
25
Small-Signal –3dB Low Frequency Excluding AC coupling capacitors
Cutoff
–
kHz
LF
DJ
RJ
Deterministic Jitter (includes DCD)
Random Jitter
K28.5 pattern at 1.25 Gbps, 10 mVPP input
–
–
–
18
5
70
–
ps
10 mV input
ps
RMS
PP
t / t
Data Output Rise and Fall Times
20% to 80%; outputs terminated into 50Ω;
150
230
ps
μs
μs
r
f
10 mV input
PP
T
Time from LOS state until LOS output LOS assert time after 1 V input signal is turned off;
is asserted
2.3
2.3
–
–
80
80
LOS_ON
PP
signal detect level set to 10 mV
T
Time from non-LOS state until LOS is LOS deassert time after input crosses signal detect
LOS_OFF
deasserted level; signal detect set to 10 mV with applied input
signal of 20 mV
PP
6
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M02046-15
3.3/5V Limiting Amplifier for Applications from 100 Mbps to 1.25 Gbps
Rev V4
Figure 1-1.
Data Input Requirements
Differential Input
DINP
2 - 600 mV
DINN
4 - 1200 mV
Single-ended Input
DINP or DINN
Unused Input
4 - 600 mV
For single-ended input connections.
NOTE:
When connecting to the used input with AC-coupling, the unused input should be
AC-coupled through 50Ω to the supply voltage of the TIA;
When connecting to the used input with DC-coupling, the unused input should
be DC-coupled through 50Ω to a voltage equal to the common mode level of the
used input.
7
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M02046-15
3.3/5V Limiting Amplifier for Applications from 100 Mbps to 1.25 Gbps
Rev V4
Figure 1-2. Typical Applications Circuit
12.1 kΩ
Jam
optional
I
REF
Biasing
+3.3 V
V
TT
AC-Coupled
to TIA
PECLP
PECLN
DINP
DINN
Clock Data
Recovery
Unit
Limiting
Amplifier
Output
Buffer
M02016
Photodiode
MON
Offset cancel
Level
Detect
AC or DC Coupled
(as described in
Applications Information)
Comparator
Regulator
Threshold
Setting
Circuit
ST
LOS
ST
V
V
CC3 CC
SET
R
ST
AC-coupled inputs shown.
NOTE:
8
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M02046-15
3.3/5V Limiting Amplifier for Applications from 100 Mbps to 1.25 Gbps
Rev V4
2.0 Pin Definitions
Table 2-1.
Pin Descriptions
QSOP Pin#
Name
Function
1
2
ST
Loss of signal threshold setting input. Connect a 1% resistor between this pin and V
(pin 2) to set loss of signal threshold.
CC3
SET
V
Power supply input for 3.3V applications or the output of the internally regulated 3.3V voltage when V = 5V. Connect
CC
CC3
directly to supply for 3.3V applications (internal regulator not in use). Do not connect to power supply if V = 5V.
CC
3
4
5
6
7
GND
DINP
DINN
NC
Ground.
Non-inverting data input. Internally terminated with 50Ω to V (see Figure 3-2).
TT
Inverting data input. Internally terminated with 50Ω to V (see Figure 3-2).
TT
No Connect. Leave Floating.
V
Power supply input for 3.3V applications or the output of the internally regulated 3.3V voltage when V = 5V. Connect
CC
CC3
directly to supply for 3.3V applications (internal regulator not in use). Do not connect to power supply if V = 5V.
CC
8
JAM
Output disable. When high, data outputs are disabled (with non-inverting output held high and inverting output held low).
Connect to LOS output to disable outputs with loss of signal. Outputs are enabled when JAM is low or floating. Internal 150
kΩ resistor to ground.
9
LOS
ST
Loss of signal output. Goes high when input signal falls below threshold set by ST . This output is an open collector TTL
SET
with internal 80 kΩ pull-up resistor to V . Leave floating if not used.
CC
10
Signal detect output. Goes high when input signal amplitude is above threshold set by ST . In M02046-15, this output is
SET
an open collector TTL with internal 80 kΩ pull-up resistor to V ; In M02046-25, this output is PECL. Leave floating if not
CC
used.
11
12
13
14
15
16
GND
Ground.
PECLN
PECLP
Inverting data output (PECL).
Non-inverting data output (PECL).
V
Power supply. Connect to either +5V or +3.3V.
No Connect. Leave Floating.
CC
NC
I
Internal reference current for the LOS threshold. Must be connected to ground through a 12.1 kΩ 1% resistor.
REF
9
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M02046-15
3.3/5V Limiting Amplifier for Applications from 100 Mbps to 1.25 Gbps
Rev V4
Figure 2-1. M02046-x5 Pinout
ST
V
1
2
3
4
5
6
7
8
16
15
14
13
12
11
10
9
I
SET
REF
NC
CC3
GND
V
CC
DINP
DINN
PECLP
PECLN
GND
M02046-x5
Date Code
NC
V
ST
CC3
JAM
LOS
Note: x is either a 1 or 2 as explained in the ordering information
10
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M02046-15
3.3/5V Limiting Amplifier for Applications from 100 Mbps to 1.25 Gbps
Rev V4
3.0 Functional Description
3.1
Overview
The M02046 is a highly integrated high-gain limiting amplifier that can be used with the same board layout and
footprint as the MC2046-2. Featuring PECL outputs, the M02046 is intended for use in applications from 100 Mbps
to 1.25 Gbps. Full output swing is achieved even at minimum input sensitivity. The M02046 can operate with a 3.3V
or 5V supply.
Included in the M02046 is a programmable signal-level detector, allowing the user to set thresholds at which the
logic outputs are enabled. The signal detect function has typically 2 dB (optical) of hysteresis which prevents
chatter at low input levels. A squelch function, which turns off the output when no signal is present, is provided by
externally connecting the LOS Status output to the JAM input.
The M02046-15 has a CMOS Status output and the M02046-25 has a PECL Status output. Both versions have a
CMOS LOS output.
11
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M02046-15
3.3/5V Limiting Amplifier for Applications from 100 Mbps to 1.25 Gbps
Rev V4
Figure 3-1. Block Diagram Example
Jam
I
REF
V
TT
Biasing
DINP
DINN
PECLP
PECLN
Limiting
Amplifier
Output
Buffer
Offset cancel
Level
Detect
ST
Comparator
LOS
Threshold
Setting
Circuit
Regulator
V
ST
V
SET
CC3
CC
3.2
Features
•
•
•
•
•
•
•
•
Pin compatible with the MC2046-2
Operates with a 3.3V or 5V supply
2.8 mV typical input sensitivity at 1.25 Gbps
Programmable input-signal level detect
On-chip DC offset cancellation circuit
CMOS and PECL Signal Detect output variants
Output Jam Function
Low power (< 200 mW (M02046-15) including PECL outputs)
3.3
General Description
The M02046 is a high-gain limiting amplifier for applications up to 1.25 Gbps, and incorporates a limiting amplifier,
an input signal level detection circuit and also a fully integrated DC-offset cancellation loop that does not require
any external components. The M02046 features a PECL high-speed data outputs.
12
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For further information and support please visit:
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M02046-15
3.3/5V Limiting Amplifier for Applications from 100 Mbps to 1.25 Gbps
Rev V4
The M02046 provides the user with the flexibility to set the signal detect threshold and features either a CMOS
status output (M02046-15) or a PECL status output (M02046-25). Optional output buffer disable (squelch/jam) can
be implemented using the JAM input.
3.3.1
Inputs
The data inputs are internally connected to V via 50Ω resistors, and generally need to be AC coupled. Referring
TT
to Figure 3-2, the nominal V voltage is 2.85V because of the internal resistor divider to V
, which means this is
TT
CC3
the DC potential on the data inputs. See the applications information section for further details on choosing the AC-
coupling capacitor.
Figure 3-2. CML Data Inputs
V
V
V
CC3
CC
CC
1.3 kΩ
8.3 kΩ
V
TT
50 Ω
50 Ω
DINN
DINP
3.3.2
DC Offset Compensation
The M02046 contain an internal DC autozero circuit that can remove the effect of DC offsets without using external
components. This circuit is configured such that the feedback is effective only at frequencies well below the lowest
frequency of interest. The low frequency cut off is typically 25 kHz.
13
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M02046-15
3.3/5V Limiting Amplifier for Applications from 100 Mbps to 1.25 Gbps
Rev V4
3.3.3
Data Outputs
The M02046 features 100k/300k PECL compliant outputs as shown in Figure 3-3. The outputs may be terminated
using any standard AC or DC-coupling PECL termination technique. AC-coupling is used in applications where the
average DC content of the data is zero e.g. SONET. The advantage of this approach is lower power consumption,
no susceptibility to DC drive and compatibility with non-PECL interfaces.
Figure 3-3. PECL Data Outputs
V
CC
PECLP
PECLN
50 Ω
50 Ω
V
- 2V
CC
3.3.4
Signal Detect (ST) and Loss of Signal (LOS)
The M02046 features input signal level detection over an extended range. Using an external resistor, R , between
ST
pin ST
and V
(Figure 3-6) the user can program the input signal threshold. The signal detect status is
CC3
SET
indicated on the both the Signal Detect (ST) and LOS output pins. The Status output is either CMOS
(M02046-15) or PECL (M02046-25). The PECL version is shown in Figure 3-4 while Figure 3-5 shows the ST
output for the CMOS version of the device (and the LOS output for both versions of the device).
The ST (LOS) signal is active (not asserted) when the signal is above the threshold value. The signal detection
circuitry has the equivalent of 3.5 dB (typical) electrical hysteresis.
14
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Visit www.macom.com for additional data sheets and product information.
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M02046-15
3.3/5V Limiting Amplifier for Applications from 100 Mbps to 1.25 Gbps
Rev V4
Figure 3-4. PECL ST Output (M02046-25)
V
CC
ST
50 Ω
V
- 2V
CC
Figure 3-5. CMOS ST (M02046-15) and LOS (M02046-15 and M02046-25) Output
VCC
Either
LOS or
80 kΩ
ST
R
establishes a threshold voltage at the ST
pin as shown in Figure 3-6. Internally, the input signal level is
SET
ST
monitored by the Level Detector which creates a DC voltage proportional to the input signal peak to peak value.
The voltage at ST is internally compared to the signal level from the Level Detector. When the Level Detect
SET
voltage is less than V
, LOS is asserted and will stay asserted until the input signal level increases by a
(STSET)
predefined amount of hysteresis. When the input level increases by more than this hysteresis above V
, LOS
(STSET)
is deasserted. See the applications information section for the selection of R .
ST
15
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M02046-15
3.3/5V Limiting Amplifier for Applications from 100 Mbps to 1.25 Gbps
Rev V4
Note that ST
low.
can be left open if the loss of signal detector function is not required. In this case LOS would be
SET
Figure 3-6. STset Input
VCC3
VCC
RST
VSTSET
STSET
3.3.5
JAM Function
When asserted, the active high power down (JAM) pin forces the outputs to a logic “one” state. This ensures that
no data is propagated through the system. The loss of signal detection circuit can be used to automatically force
the data outputs to a high state when the input signal falls below the threshold. The function is normally used to
allow data to propagate only when the signal is above the user's bit-error-rate requirement. It therefore inhibits the
data outputs toggling due to noise when there is no signal present (“squelch”).
In order to implement this function, LOS should be connected to the JAM pin shown in Figure 3-7, thus forcing the
data outputs to a logic “one” state when the signal falls below the threshold.
Figure 3-7. JAM Input
VCC
JAM
55 kΩ
100 kΩ
16
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M02046-15
3.3/5V Limiting Amplifier for Applications from 100 Mbps to 1.25 Gbps
Rev V4
3.3.6
Voltage Regulation
The M02046 contain an on-chip voltage regulator to allow both 5V and 3.3V operation. When used at 5V, the on-
chip regulator is enabled and the digital inputs and outputs are compatible with TTL 5V logic levels.
17
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M02046-15
3.3/5V Limiting Amplifier for Applications from 100 Mbps to 1.25 Gbps
Rev V4
4.0 Applications Information
4.1
Applications
•
•
•
•
•
•
•
•
1.06 Gbps Fibre Channel
1.25 Gbps Ethernet
1.25 Gbps SDH/SONET
SDH/SONET 155 Mbps Transceivers
FTTx and Media Converters
Fast Ethernet Receivers
FDDI 125 Mbps Receivers
ESCON Receivers
4.1.1
Reference Current Generation
The M02046 contain an accurate on-chip bias circuit that requires an external 12.1 kΩ 1% resistor, R , from pin
REF
I
to ground to set the LOS threshold voltage at ST
precisely.
REF
SET
Figure 4-1. Reference Current Generation
VCC3
RST
STSET
VSET
LOS
VLVL_Det
BG_Ref
IREF
RREF
18
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M02046-15
3.3/5V Limiting Amplifier for Applications from 100 Mbps to 1.25 Gbps
Rev V4
4.1.2
Connecting VCC and VCC3
For 5V operation, the V pin is connected to an appropriate 5V 7.5% supply. No potential should be applied to
CC
the V
pin. The only connection to V
should be R as shown in Figure 3-6.
CC3 ST
CC3
When V = 5V all logic outputs and the data outputs are 5V compatible. For low power operation, V and V
CC3
CC
CC
should be connected to an appropriate 3.3V 7.5% supply. In this case all I/Os are 3.3V compatible.
4.1.3
Choosing an Input AC-Coupling Capacitor
When AC-coupling the input the coupling capacitor should be of sufficient value to pass the lowest frequencies of
interest, bearing in mind the number of consecutive identical bits, and the input resistance of the part. For SONET
data, a good rule of thumb is to chose a coupling capacitor that has a cut-off frequency less than 1/10,000 of the
input data rate. For example, for 1.25 Gbps data, the coupling capacitor should be chosen as:
9
3
f
≤ (1.25x10 / 10x10 ) = 125 kHz
CUTOFF
The -3 dB cutoff frequency of the low pass filter at the input is found as (assuming that the TIA output is also 50Ω
single-ended):
f
= 1/ (2 * π * 100Ω * C
)
3dB
AC
so solving for C where f
= f
CUTOFF
3dB
C
= 1/ (2 * π * 100Ω * f
)
EQ.1
AC
CUTOFF
and in this case the minimum capacitor is 12.8 nF.
For Ethernet or Fibre Channel, there are less consecutive bits in the data, and the recommended cut-off frequency
is 1/(1,000) of the input data rate. This results in a minimum capacitor of 1.6 nF (or greater) for 1 Gbps Ethernet.
Multirate applications down to 100 Mbps
6
In this case, the input coupling capacitor needs to be large enough to pass 15 kHz (155x10 /10,000, a condition
more stringent than 100 Mbps Ethernet) which results in a capacitor value of 100 nF. However, because this low
pass frequency is close to the 25 kHz low pass frequency of the internal DC servo loop, it is preferable to use a
larger input coupling capacitor such as 200 nF which provides an input cutoff frequency of 7.5 kHz. This separates
the two poles sufficiently to allow them to be considered independent.
In all cases, a high quality coupling capacitor should be used as to pass the high frequency content of the input
data stream. It is also important that the ROSA bandwidth is sufficiently low and high enough to also support the
required data rate, for it’s lower and upper cutoff bandwidth impact the receiver bandwidth as much as does the
limiting amp’s lower and upper cutoff bandwidth.
4.1.4
Setting the Signal Detect Level
Using Figure 4-2, the value for R is chosen to set the LOS threshold at the desired value. The resulting
ST
hysteresis is also shown in Figure 4-2.
19
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M02046-15
3.3/5V Limiting Amplifier for Applications from 100 Mbps to 1.25 Gbps
Rev V4
From Figure 4-2, it is apparent that small variations in R cause significant variation in the LOS threshold level,
ST
particularly for low input signal levels. This is because of the logarithmic relationship between the internal level
detect voltage and the input signal level. It is recommended that a 1% resistor be used for R and that allowance
ST
is provided for LOS variation, particularly when the LOS threshold is near the sensitivity limit of the M02046.
Example R resistor values are given in Table 4-1.
ST
Table 4-1.
Typical LOS Assert and De-assert Levels for Various 1% R Resistor Values
ST
VIN (mV pp) differential
LOS De-Assert
R
(kΩ)
ST
LOS Assert
4.9
7.50
7.8
6.81
6.19
5.49
11.7
17.0
33.4
77.3
23.2
55.0
Figure 4-2. Typical Loss of Signal Characteristic (Full Input Signal Range)
80
Conditions:
70
60
50
40
30
20
10
0
1.25 Gbps, 231 - 1
Vcc = 3.3V, Temp = 25C
De-assert
Assert
Optical Hysteresis
= 10*log (De-assert/Assert)
10
5.5
5.7
5.9
6.1
6.3
6.5
6.7
6.9
7.1
7.3
7.5
RST (kΩ)
20
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M02046-15
3.3/5V Limiting Amplifier for Applications from 100 Mbps to 1.25 Gbps
Rev V4
Figure 4-3. Typical Loss of Signal Characteristic (Low Input Signal Range)
30
Conditions:
1.25 Gbps, 231 - 1
Vcc = 3.3V, Temp = 25C
20
10
0
De-assert
Assert
Optical Hysteresis = 10*log10(De-assert/Assert)
6.5
6.7
6.9
7.1
7.3
7.5
RST (kΩ)
21
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M02046-15
3.3/5V Limiting Amplifier for Applications from 100 Mbps to 1.25 Gbps
Rev V4
Figure 4-4. Typical Loss of Signal Characteristic (High Input Signal Range)
80
Conditions:
70
60
50
40
30
20
10
0
1.25 Gbps, 231 - 1
Vcc = 3.3V, Temp = 25C
De-assert
Assert
Optical Hysteresis
= 10*log10(De-assert/Assert)
5.5
5.7
5.9
6.1
6.3
6.5
RST (kΩ)
22
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M02046-15
3.3/5V Limiting Amplifier for Applications from 100 Mbps to 1.25 Gbps
Rev V4
Figure 4-5. Typical Loss of Signal Hysteresis Characteristic (Full Input Signal Range)
5.0
4.5
Electrical Hysteresis
= 20*log10(De-assert/Assert)
4.0
3.5
3.0
2.5
2.0
1.5
1.0
0.5
0.0
Conditions:
1.25 Gbps, 231 - 1
Vcc = 3.3V, Temp = 25C
5.5
5.7
5.9
6.1
6.3
6.5
6.7 6.9
7.1
7.3 7.5
RST (kΩ)
4.1.5
PECLP and PECLN Termination
The data outputs of the M02046 are PECL compatible. For the high speed PECLP and PECLN outputs any
standard AC or DC-coupling termination technique can be used. Figure 4-6 and Figure 4-7 illustrate typical AC and
DC terminations.
AC-coupling is used in applications where the average DC content of the data is zero e.g. SONET. The advantage
of this approach is lower power consumption, no susceptibility to DC drift and compatibility with non-PECL
interfaces. Figure 4-6 shows the circuit configuration and Table 4-2 lists the resistor values. If using transmission
lines other than 50Ω, the shunt terminating resistance Z should equal twice the impedance of the transmission line
T
(Z ).
O
DC-coupling can be used when driving PECL interfaces and has the advantage of a reduced component count. A
Thevenin termination is used at the receive end to give a 50Ω load and the correct DC bias. Figure 4-7 shows the
circuit configuration and Table 4-2 the resistor values.
Alternatively, if available, terminating to V - 2V as shown in Figure 4-8 has the advantage that the resistance
CC
value is the same for 3.3V and 5V operation and it also has performance advantages at high data rates.
In the M02046, ST is a PECL output. It is recommended that it be DC terminated in a PECL load, preferably as
shown in Figure 4-8, but the decoupling capacitor on the load is not required as this is a DC output.
23
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M02046-15
3.3/5V Limiting Amplifier for Applications from 100 Mbps to 1.25 Gbps
Rev V4
Table 4-2.
PECL Termination Resistor Values
Output
Impedance
R
Z
R
/ R
R / R
T B
Supply
PULL-DOWN
T
TA
TB
5V
50 Ω
50 Ω
270 Ω
150 Ω
100 Ω
100 Ω
2.7 kΩ / 7.8 kΩ
2.7 kΩ / 4.3 kΩ
82 Ω / 130 Ω
130 Ω / 82 Ω
3.3V
Figure 4-6. AC-Coupled PECL Termination
VCC
VCC
RTA
RTA
0.1µF
0.1µF
Zo
Zo
PECLP
ZT
PECL
PECLN
M02046
RTB
RTB
RPULL-DOWN
Figure 4-7. DC-Coupled PECL Termination
VCC
VCC
10 nF
RT
RT
Zo
Zo
PECLP
PECL
PECLN
M02046
RB
RB
24
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M02046-15
3.3/5V Limiting Amplifier for Applications from 100 Mbps to 1.25 Gbps
Rev V4
Figure 4-8. Alternative PECL Termination
VCC
VCC
Zo
PECLP
PECL
Zo
M02046
PECLN
50 Ω
50 Ω
10 nF
VCC - 2V
4.1.6
STPECL (M02046-25) Termination
The ST (in the PECL version of the part) output of the M02046 is PECL swing compatible. In most module
applications, it is not common for this output to be terminated into a standard PECL load as shown in Figure 4-8 for
the data outputs because ST is typically in a V state and this would consume ~20 mA of continuous supply
OH
current. In cases where an alternative termination can be used it is recommended that a single 510Ω resistor be
connected between the ST output and ground. When this termination is used, the V and V levels of the ST
OH
OL
output typically meet the standard defined PECL levels and the swing is within PECL limits. This has the additional
advantage of reducing the current consumption due to ST being high to <5 mA.
4.1.7
Using JAM
As shown in the typical applications circuit (Figure 1-2), the LOS output pin can optionally be connected to the Jam
input pin. When LOS asserts the Jam function sets the data outputs to a fixed “one” state (PECLP is held high and
PECLN is held low). This is normally used to allow data to propagate only when the signal is above the users' bit
error rate (BER) requirement. It prevents the outputs from toggling due to noise when no signal is present.
From the LOS assert and deassert figures above (Figure 4-2 - Figure 4-4), when an input signal is below the LOS
assert threshold, LOS asserts (LOS high) causing Jam to assert. When Jam asserts, the data outputs and the
internal servo loop of the M02046-x5 are disabled. If the input signal reaches or exceeds the LOS deassert
threshold, LOS deasserts (LOS low) causing Jam to deassert, and hence enables the data outputs and the internal
servo loop. If, however, the input signal is slowly increasing to a level that does not exceed the LOS deassert
threshold (operating in the hysteresis region), the internal servo loop may not be fully established and this may
cause partial enabling of the data outputs. To avoid this the input signal needs to fully reach or exceed the LOS
deassert level to fully enable the data outputs.
25
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M02046-15
3.3/5V Limiting Amplifier for Applications from 100 Mbps to 1.25 Gbps
Rev V4
5.0 Package Specification
Figure 5-1. Package Information
Symbol
Tols/N
MAX.
±.05
QSOP16
1.60
A
A1
A2
D
0.1
±.05
1.40
±.05
4.95
E
±.10
6.00
E
E1
E1
L
±.05
3.90
±.15
0.60
ccc
ddd
e
MAX.
MAX.
BASIC
±.025
±.02
0.080
0.10
0.635
0.224
0.22
b
c
Bottom View
R
±.05
0.25
R1
Min.
0.20
Stand-Off
Seating Plane
A1 Stand-Off
26
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M02046-15
3.3/5V Limiting Amplifier for Applications from 100 Mbps to 1.25 Gbps
Rev V4
M/A-COM Technology Solutions Inc. All rights reserved.
Information in this document is provided in connection with M/A-COM Technology Solutions Inc ("MACOM")
products. These materials are provided by MACOM as a service to its customers and may be used for
informational purposes only. Except as provided in MACOM's Terms and Conditions of Sale for such products or
in any separate agreement related to this document, MACOM assumes no liability whatsoever. MACOM assumes
no responsibility for errors or omissions in these materials. MACOM may make changes to specifications and
product descriptions at any time, without notice. MACOM makes no commitment to update the information and
shall have no responsibility whatsoever for conflicts or incompatibilities arising from future changes to its
specifications and product descriptions. No license, express or implied, by estoppel or otherwise, to any
intellectual property rights is granted by this document.
THESE MATERIALS ARE PROVIDED "AS IS" WITHOUT WARRANTY OF ANY KIND, EITHER EXPRESS OR
IMPLIED, RELATING TO SALE AND/OR USE OF MACOM PRODUCTS INCLUDING LIABILITY OR
WARRANTIES RELATING TO FITNESS FOR A PARTICULAR PURPOSE, CONSEQUENTIAL OR INCIDENTAL
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INTELLECTUAL PROPERTY RIGHT. MACOM FURTHER DOES NOT WARRANT THE ACCURACY OR
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MATERIALS. MACOM SHALL NOT BE LIABLE FOR ANY SPECIAL, INDIRECT, INCIDENTAL, OR
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WHICH MAY RESULT FROM THE USE OF THESE MATERIALS.
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MACOM for any damages resulting from such improper use or sale.
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