MICREL SY88349NDLMG

SY88349NDL
2.5Gbps Burst-Mode Limiting Amplifier
with Ultra-Fast Signal Assert Timing
General Description
Features
The SY88349NDL is a high-sensitivity, burst-mode
capable limiting post amplifier designed for optical line
terminal (OLT) receiver applications. The SY88349NDL
satisfies the strict timing restrictions of the GPON
standards by providing ultra-fast loss-of-signal (LOS) or
Signal-Detect (SD) output. Auto reset and manual reset
options are provided to control LOS/SD output timing. For
increased flexibility, this device also includes an option to
select between LOS or SD output. The device can be
connected to burst-mode capable transimpedance
amplifiers (TIAs) using AC or DC coupling.
The SY88349NDL generates a high-gain LOS or SD
LVTTL output. A programmable LOS/SD level set pin
(LOS/SDLVL) sets the sensitivity of the input amplitude
detection. When LOS/SD SEL pin is left open or tied to
VCC, JAM is active high, SD is selected and asserts high if
the input amplitude rises above the threshold sets by
LOS/SDLVL and de-asserts low otherwise. When LOS/SD
SEL pin is set low or tied to GND, JAM is active low, LOS
is selected and asserts low if the input amplitude rises
above the threshold sets by LOS/SDLVL and de-asserts
high otherwise. The LOS/SD output can be fed back to the
JAM input to maintain output stability under an invalid
signal conditions. Typically, 4dB  5dB SD hysteresis is
provided to prevent chattering.
The SY88349NDL also features a selectable proprietary
noise discriminator that aids by filtering out input signals
that do not qualify as a 2.5Gbps GPON preamble signal in
the initial startup phase. This feature minimizes false SD
asserts that can be triggered by random noise.
The SY88349NDL operates from a single +3.3V power
supply, over temperatures ranging from –40C to +85C.
With its wide bandwidth and high gain, signals up to
2.5Gbps and as small as 5mVpp can be amplified to drive
devices with CML inputs.
Data sheets and support documentation can be found on
Micrel’s web site at www.micrel.com.
 <5ns SD assert (LOS deassert) time
 Proprietary noise discriminator feature
 Option to AUTO RESET or manual RESET LOS/SD
output
 Selectable LOS/SD option
 Up to 2.5Gbps operation
 Low-noise CML data outputs
 5mVpp input sensitivity
 High-sensitivity LOS/SD detect
 LVTTL LOS/SD output with an external pull-up resistor
 Squelching function to disable output
 Programmable LOS/SD level set (LOS/SDLVL)
 Single 3.3V power supply
 Available in a 16-pin (3mm  3mm) QFN package
January 2012
Applications






XGPON.1/GEPON/GPON
Gigabit Ethernet
Fibre Channel
OC-3/12/24/48 SONET/SDH
High-gain line driver and line receiver
Low-gain TIA interface
Markets
 FTTH
 Datacom/Telecom
 Optical transceiver
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SY88349NDL
Ordering Information
Part Number
Package Type
Operating Range
Package Marking
SY88349NDLMG
Lead-Free 16-Pin 3mm  3mm QFN
–40C to +85C
349N with
Pb-Free Bar-Line Indicator
SY88349NDLMGTR(1)
Lead-Free 16-Pin 3mm  3mm QFN
–40C to +85C
349N with
Pb-Free Bar-Line Indicator
Note:
1. Tape & Reel.
Pin Configuration
16-Pin 3mm  3mm QFN (QFN-16)
Pin Description
Pin Number
Pin Name
Pin Function
1, 4
DIN, /DIN
Data Inputs. If AC-coupled, terminate each pin to VREF with 50Ω.
2
VREF
Reference Voltage Output. Typically VCC – 1.3V.
3, 11, 8
GND
Device Ground.
10
/AUTO RESET
5, 16
VCC
January 2012
LVTTL Input. This pin is internally connected to a 25kΩ pull-up resistor and defaults to HIGH.
When this pin is LOW or tied to ground, the /AUTO RESET function is enabled and SD deasserts or LOS asserts within 100ns (typical) after the last high-to -low transition of the burst
input. When this pin is left floating or not connected, the AUTO RESET function is disabled and
the SD de-assert or LOS assert must be forced by using the manual RESET function.
Positive Power Supply.
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SY88349NDL
Pin Description (Continued)
Pin Number
Pin Name
Pin Function
6
RESET
LVTTL Input. Apply a high-level signal (2V) to this pin to discharge the time constant and reset
the signal de-assert time or LOS assert time within 5ns. RESET defaults to LOW if left floating.
If the /AUTO RESET function is not used, this RESET function needs to be used to quickly deassert the SD or assert LOS. This pin is internally connected to a 25kΩ pull-down resistor and
defaults to LOW.
7
SD/LOS
LVTTL Output. Signal-detect (SD) asserts HIGH when the data input amplitude rises above the
threshold sets by SDLVL. Conversely, loss-of-signal (LOS) de-asserts LOW when the data input
amplitude rises above the threshold set by LOSLVL.
12, 9
DOUT, /DOUT
CML Outputs. When JAM disables the device, output DOUT is forced to logic LOW and output
/DOUT is forced to logic HIGH.
13
LOS/SD SEL
Allows the user to select between whether LOS or SD is outputted on the LOS/SD pin and
whether the noise discriminator is enabled or disabled. Please see Truth Table for more
information. Also controls the polarity of the JAM input. When SD (regardless of the noise
discriminator status) is selected, JAM is active HIGH and LOS/SD (Pin 7) operates as signal
detect. Conversely, when LOS is selected, JAM is active LOW and LOS/SD operates as lossof-signal. Pin must be tied to one of the four options and cannot be left open.
14
LOS/SDLVL
Voltage Input. Sets the Loss of Signal/Signal Detect Level. A resistor from this pin to VCC sets
the threshold for the data input amplitude at which LOS/SD will be asserted.
15
LVTTL Input. This JAM input acts as a squelch function and switches its polarity depending on
LOS/SDSEL status. When LOS is selected, this pin is active LOW. When SD is selected, this
pin is active HIGH. To create a squelch function, connect JAM to LOS/SD. When JAM disables
the device, output Q is forced to logic LOW and output /Q is forced to logic HIGH Note that this
input is internally connected to a 25kΩ pull-up resistor.
JAM
Truth Table for SD/LOS Select and Noise Discriminator function
LOS/SDSEL PIN
LOS/SD SELECTION
NOISE DISCRIMINATOR
INPUT TO JAM
OUTPUTS
0Ω to VCC
SD
Enabled
HIGH
Enabled
0Ω to VCC
SD
Enabled
LOW
Disabled
16KΩ to VCC
SD
Disabled
HIGH
Enabled
16KΩ to VCC
SD
Disabled
LOW
Disabled
16KΩ to GND
LOS
Disabled
HIGH
Disabled
16KΩ to GND
LOS
Disabled
LOW
Enabled
0Ω to GND
LOS
Enabled
HIGH
Disabled
0Ω to GND
LOS
Enabled
LOW
Enabled
January 2012
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SY88349NDL
Absolute Maximum Ratings(1)
Operating Ratings(2)
Supply Voltage (VCC)................................... -0.3V to +4.0V
Input Voltage (DIN, /DIN) .......................................0 to VCC
Output Current (IOUT)
Continuous........................................................ ±50mA
Surge .............................................................. ±100mA
EN Voltage ...................................................... -0.3V to VCC
VREF Current ......................................... 800μA to +500μA
SDLVL Voltage ....................................................VREF to VCC
Lead Temperature (soldering, 20sec.)..................... 260°C
Storage Temperature (Ts) ....................... –65°C to +150°C
Supply Voltage (VCC).................................... +3.0V to +3.6V
Ambient Temperature (TA) ..........................–40°C to +85°C
Junction Temperature (TJ) ........................–40°C to +125°C
Junction Thermal Resistance(3)
QFN (JA) Still-Air ................................................60°C/W
QFN (JB) Junction-to-Board ..............................38°C/W
DC Electrical Characteristics
VCC = 3.0 to 3.6V; TA = –40C to +85C, typical values at VCC = 3.3V, TA = 25C.
Symbol
Parameter
Condition
Min.
ICC
Power Supply Current
No output load
LOS/SDLVL
LOS/SDLVL Voltage
VOH
CML Output HIGH Voltage
Note12
VCC  0.020
VOL
CML Output LOW Voltage
Note 12
VCC  0.475
VOFFSET
Input Offset Voltage
Typ.
Max.
Units
90
120
mA
VCC
V
VCC  0.005
VCC
V
VCC  0.4
VCC  0.350
V
±1
mV
VREF
VIHCMR(Diff)
Common-Mode Range (Differential)
Note 4
GND +1.4
Vcc
V
VIHCMR(SE)
Common-Mode Range (Single Ended )
Note 4
GND +1.2
VCC
V
VREF
Reference Voltage
VCC  1.32
VCC  1.16
V
IDIN
Input Sink Current (DIN and /DIN)
8.5
20
µA
Typ.
Max.
Units
VCC  1.48
Vin =VIH
LVTTL DC Electrical Characteristics
VCC = 3.0 to 3.6V; TA = –40C to +85C, typical values at VCC = 3.3V, TA = 25C.
Symbol
Parameter
VIH
LVTTL Input HIGH Voltage
VIL
LVTTL Input LOW Voltage
IIH_JAM
JAM Input HIGH Current
VIN = VCC
VIN = 2.7V
IIL_JAM
JAM Input LOW Current
VIN = 0.5V
IIH_AR
/AUTORESET Input HIGH Current
VIN = VCC
VIN = 2.7V
IIL_AR
/AUTORESET Input LOW Current
VIN = 0.5V
IIH_RESET
RESET Input HIGH Current
VIN = VCC
VIN = 2.7V
IIL_RESET
RESET Input LOW Current
VIN = 0.5V
VOH
SD/LOS Output HIGH Level
IOH = 100uA
VOL
SD/LOS Output LOW Level
IOL = 100uA
January 2012
Condition
Min.
2.0
V
0.8
20
20
0.3
20
0.3
µA
mA
300
250
0
µA
mA
2.7
0.35
5
µA
mA
100
2.1
V
V
0.5
V
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SY88349NDL
AC Electrical Characteristics
VCC = 3.0V to 3.6V; RL = 50Ω to VCC; TA = –40C to +85C.
Symbol
Parameter
Condition
tr, tf
Output Rise/Fall Time (20% to 80%)
Note 4
tJAM
JAM Enable/Disable Time
tAUTORESET
SD De-Assert or LOS Assert with
Auto Reset Enabled
tRESET
RESET Disable Time
Min.
75
Typ.
120
Note 5
Max.
Units
150
ps
2
ns
150
ns
5
ns
tON
SD Assert Time/LOS De-Assert Time
Noise Discriminator Bypassed
5
ns
tON_ND
SD Assert Time/LOS De-Assert Time
Noise Discriminator Enabled
7
ns
Deterministic
Note 6
15
psPP
Random
Note 7
5
psRMS
tJITTER
VID
Differential Input Voltage Swing
Figure 1
VOD
Differential Output Voltage Swing
VID  18mVPP Note 12
SDAL /LOSDL
SDDL//LOSAL
Low SD Assert/LOS De-Assert Level
Low SD De-Assert/LOS Assert Level
5
660
(8, 10, 13)
RLOS/SDLVL = 10kΩ
Low SD/LOS Hysteresis
SDAM/LOSDM
Medium SD Assert/LOS De-Assert
Level
RLOS/SDLVL = 5kΩ
SDDM/LOSAM
Medium SD De-Assert/LOS Assert
Level
HYSM
Medium SD/LOS Hysteresis
1800
mVPP
940
mVPP
9
mVPP
(10, 13)
4.5
mVPP
(11, 13)
6
dB
RLOS/SDLVL = 10kΩ
HYSL
800
RLOS/SDLVL = 10kΩ
(10, 13)
9.4
12.5
15.6
mVPP
RLOS/SDLVL = 5kΩ(10, 13)
5
7
8.6
mVPP
RLOS/SDLVL = 5kΩ(11, 13)
3.5
5
7
dB
(10, 13)
SDAH/LOSDH
High SD Assert/LOS De-assert Level
RLOS/SDLVL = 100Ω
27
35
45
mVPP
SDDH/LOSAH
High SD De-Assert/ LOS Assert Level
RLOS/SDLVL = 100Ω(10, 13)
15
21
28
mVPP
2
4.5
6
dB
HYSH
High SD/LOS Hysteresis
(11, 13)
RLOS/SDLVL = 100Ω
AV(Diff)
Differential Voltage Gain
42
dB
S21
Single-Ended Small-Signal Gain
36
dB
Notes:
1. Permanent device damage may occur if absolute maximum ratings are exceeded. This is a stress rating only and functional operation is not implied
at conditions other than those detailed in the operational sections of this data sheet. Exposure to absolute maximum rating conditions for extended
periods may affect device reliability.
2. The data sheet limits are not guaranteed if the device is operated beyond the operating ratings.
3. Thermal performance assumes the use of a 4-layer PCB. Exposed pad must be soldered to the device’s most negative potential on the PCB.
4. VIHCMR is defined as common mode range of the VIH level on DIN and /DIN. It is the most positive level of the differential input signal when driven
differentially or is the reference level on Din\ when being driven single ended.
5. Amplifier in limiting mode. Input is a 200MHz square wave.
6. Deterministic jitter measured using 2.5Gbps K28.5 pattern, VID = 10mVPP.
7. Random jitter measured using 2.5Gbps K28.7 pattern, VID = 10mVPP.
8. SD is the opposite polarity of LOS. Therefore, an SD Assert parameter is equivalent to a LOS de-assert parameter and vice versa.
9. See “Typical Operating Characteristics” for graphs showing input signal vs. SD Assert/LOS de-assert time at various RLOS/SDLVL settings.
10. See “Typical Operating Characteristics” for graph showing how to choose a particular RLOS/SDLVL for a particular assert and its associated de-assert
amplitude.
11. This specification defines electrical hysteresis as 20log(SD assert/SD de-assert). The ratio between optical hysteresis and electrical hysteresis is
found to vary between 1.5 and 2 depending upon the level of received optical power and ROSA characteristics. Based upon that ratio, the optical
hysteresis corresponding to the electrical hysteresis range 2dB-5dB, shown in the AC characteristics table, will be 1dB-4dB optical hysteresis.
12. VOL and VOH are measured with outputs loaded with 50 Ohms as shown in Figure 3b and VOD is measured in accordance with Figures 3a and/or 3b.
13. All SD Assert (LOS De-Assert) level, SD De-assert (LOS Assert) level and Hysteresis specifications listed above are specified using a 1010 PON
Preamble data pattern at the specified data rate of 2.488 Gbps.
January 2012
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SY88349NDL
Typical Operating Characteristics
VCC = 3.3V, TA = 25C, RL = 50 to VCC, unless noted.
LOS Assert/De-Assert Levels
LOS/SD Hysteresis
8
7
Hysteresis (dB)
Signal Amplitude (mV)
100
10
6
5
4
3
1
0.01
0.1
1
2
0.01
10
LOS/SDLVL Resistor (KOhm)
0.1
1
10
LOS/SDLVL Resistor (KOhm)
Note:
SD/LOS Sensitivity with RLOS/SD at 0 is the same as with 0.01 k
Input signal and LOS De-assert with Noise Discriminator
Bypass and without Jam
January 2012
Input signal and LOS with Noise Discriminator Engaged
and without Jam
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SY88349NDL
Functional Diagram
January 2012
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SY88349NDL
Detailed Description
The SY88349NDL is a high-sensitivity limiting post
amplifier which operates on a +3.3V power supply over
the industrial temperature range. Signals with data rates
up to 2.5Gbps and as small as 5mVpp can be amplified.
Depending on the LOS/SDSEL option, the SY88349NDL
can generate an SD or LOS output, and allow feedback
to the JAM input for output stability. LOS/SDLVL sets the
sensitivity of the input amplitude detection.
To satisfy the stringent timing requirements of the GPON
specifications, the signal detect circuit offers 5ns SD
assert (LOS de-assert) time and the option to de-assert
SD (assert LOS) using the /AUTO RESET or manual
RESET function. When /AUTO RESET is enabled, SD
de-asserts/LOS
asserts
automatically
within
approximately 120ns after the last high-to-low transition
of the input burst. When the /AUTORESET function is
disabled, the SD De-assert/LOS Assert time can be
reset by using the provided RESET pin.
LOS/SD Level Set
A programmable LOS/SD level pin (LOS/SDLVL) sets the
threshold of the input amplitude detection. Connecting
an external resistor between VCC and LOS/SDLVL sets
the voltage at LOS/SDLVL. This voltage ranges from VCC
to VREF. The external resistor creates a voltage divider
between VCC and VREF, as shown in Figure 5. Set the
LOS/SDLVL voltage closer to VREF or more sensitive
LOS/SD detection or closer to VCC for higher inputs.
Note that the SY88349NDL is designed for use in the
burst mode PON application where every burst is
preceded with several bytes of a 1010 PON preamble
pattern. Therefore the SD Assert (LOS De-assert) is
designed to trigger on the first few bits of this preamble
pattern and therefore the SD/LOS thresholds outlined in
the AC electrical characteristics are specified using this
preamble pattern. Once the SD is Asserted (LOS Deasserted), the SD is De-asserted (LOS Asserted) only
by the application of a Manual RESET or an AUTO
RESET if the Auto Reset is activated, The auto reset
asserts a reset approximately 120 nS after the last
negative going transition of the data as explained earlier.
Input Buffer
Figure 2 shows a simplified schematic of the input stage.
The high sensitivity of the input amplifier allows signals
as small as 5mVpp to be detected and amplified. The
input buffer can allow input signals as large as
1800mVPP. Input signals are linearly amplified with a
typically 48dB differential voltage gain until the outputs
reach 1500mVPP (typical). Applications requiring the
SY88349NDL to operate with high-gain should have the
upstream TIA placed as close as possible to the
SY88349NDL’s input pins. This ensures the best
performance of the device.
Noise Discriminator
The noise discriminator feature is intended for the highgain burst-mode TIAs where noise can trigger a false
LOS deassert or SD assert while no input data is
present. The noise discriminator will filter input data
through a series of specialized circuitry that will only
trigger LOS/SD on the rising edge of a valid PON 2.488
Gbps preamble bit stream (10101). The SY88349NDL
noise discriminator is designed to accept a 2.488 Gbps
+/-300 MBPS preamble burst. Any other bit pattern will
be rejected. If this part is used at any other data rate, the
Noise Discriminator should be disengaged. The noise
discriminator, implemented in the edge detector circuit,
can be selected or bypassed by selecting the proper
resistor value using the settings at LOS/SDSEL pin.
Refer to the “Truth Table for SD/LOS select and Noise
Discriminator function” found on page 3 for more
detailed information.
Output Buffer
The SY88349NDL’s CML output buffer is designed to
drive 50Ω lines. The output buffer requires appropriate
termination for proper operation. An external 50Ω
resistor to VCC for each output pin provides this. Figure 3
shows a simplified schematic of the output stage.
Loss of Signal/Signal Detect
The SY88349NDL generates a chatter-free signal-detect
(SD) or LOS LVTTL output, as shown in Figure 4. A
highly-sensitive signal detect circuit is used to determine
that the input amplitude is too small to be considered a
valid input. LOS asserts high if the input amplitude falls
below the threshold sets by LOS/SDLVL and de-asserts
low otherwise. SD asserts high if the input amplitude
rises above threshold set by LOS/SDLVL and de-asserts
low otherwise. LOS/SD can be fed back to the JAM input
to maintain output stability under the absence of an
invalid signal condition. Typically, a 4.5dB to 5.5dB
hysteresis is provided to prevent chattering.
January 2012
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SY88349NDL
Timing Diagrams
a) No Manual RESET and /AUTORESET Tied HIGH
(Noise Discriminator OFF)
b) No Manual RESET and /AUTORESET Tied HIGH
(Noise Discriminator ON)
c) No Manual RESET and /AUTORESET Tied LOW
(Noise Discriminator OFF)
d) No Manual RESET and /AUTORESET Tied LOW
(Noise Discriminator ON)
e) Manual RESET and /AUTORESET Tied HIGH or LOW
(Noise Discriminator OFF)
f) Manual RESET and /AUTORESET Tied HIGH or LOW
(Noise Discriminator ON)
January 2012
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SY88349NDL
Timing Diagrams (Continued)
g) Manual RESET Pulse and /AUTORESET Tied LOW
(Noise Discriminator OFF)
January 2012
h) Manual RESET Pulse and /AUTORESET Tied LOW
(Noise Discriminator ON)
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Input Signal Amplitude
Figure 1. VIS (single ended) and VID (differential) Definition
January 2012
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Simplified Circuit Diagrams
Figure 2. Simplified Input Structure
Figure 3a. Simplified Output Structure with AC-Coupled
Termination
Figure 3b. Simplified Output Structure
with DC-Coupled Termination
Figure 4. Simplified LOS/SD Output Structure
Figure 5. Simplified LOS/SDLVL Setting Circuit
January 2012
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SY88349NDL
Package Information
16-Pin QFN (QFN-16)
MICREL, INC. 2180 FORTUNE DRIVE SAN JOSE, CA 95131 USA
TEL +1 (408) 944-0800 FAX +1 (408) 474-1000 WEB http://www.micrel.com
Micrel makes no representations or warranties with respect to the accuracy or completeness of the information furnished in this data sheet. This
information is not intended as a warranty and Micrel does not assume responsibility for its use. Micrel reserves the right to change circuitry,
specifications and descriptions at any time without notice. No license, whether express, implied, arising by estoppel or otherwise, to any intellectual
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