MAXIM MAX3892EGH

19-2215; Rev 0; 11/01
+3.3V, 2.5Gbps/2.7Gbps, SDH/SONET 4:1
Serializer with Clock Synthesis
Features
♦ Single +3.3V Supply
Operating from a single 3.3V supply, this device
accepts low-voltage differential-signal (LVDS) clock
and data inputs for interfacing with high-speed digital
circuitry, and delivers current-mode logic (CML) serial
data and clock outputs. A loopback data output is provided to facilitate system diagnostic testing. The
MAX3892 is available in the extended temperature
range (-40°C to +85°C) in a 44-pin QFN package.
♦ Multiple Clock Reference Frequencies:
(622.08MHz, 155.52MHz, 77.76MHz, 38.88MHz) or
(666.51MHz, 166.63MHz, 83.31MHz, 41.66MHz)
Applications
♦ 455mW Power Consumption
♦ 1.4psRMS Maximum Jitter Generation
♦ 4 ✕ 4-Bit FIFO Input Buffer
♦ 622Mbps/666Mbps Parallel to 2.5Gbps/2.7Gbps
Serial Conversion
♦ 622MHz/667MHz or 311MHz/333MHz Clock Input
♦ On-Chip Clock Synthesizer
♦ LVDS Parallel Clock and Data Inputs
♦ CML Serial Data and Clock Outputs
♦ Additional CML Output for System Loopback
Testing
Ordering Information
SONET/SDH OC-48 Transmission Systems
WDM Transponders
PART
Add/Drop Multiplexers
MAX3892EGH
Dense Digital Cross-Connects
TEMP. RANGE
PIN-PACKAGE
-40°C to +85°C
44 QFN-EP*
*EP = exposed pad
Backplane Interconnects
Typical Application Circuit
LVPECL
CZ
100Ω
RCLK-
RCLK+ FIL
VCC
VCC
VCC CLKSET MODE RATESET
LVDS
PDI0SONET/SDH
FRAMER
CML
SDO+
SDO-
PDI0+
MAX3273
CML
SCLKO+
SCLKO-
PDI3+
PDI3-
LASER
DRIVER
SLBEN
MAX3892
SLBPD
LVDS
TTL
CML
SLBO+
SLBO-
PCLKI+
PCLKILVDS
PCLKO+
PCLKO-
RESET
FIFOERROR
LOL
MAX3882 †
OPTIONAL
FOR
SYSTEM
LOOPBACK
TEST
1:4 DESERIALIZER
WITH CDR
† Future product
THIS SYMBOL REPRESENTS A TRANSMISSION
LINE OF CHARACTERISTIC IMPEDANCE ZO = 50Ω.
________________________________________________________________ Maxim Integrated Products
For pricing, delivery, and ordering information, please contact Maxim/Dallas Direct! at
1-888-629-4642, or visit Maxim’s website at www.maxim-ic.com.
1
MAX3892
General Description
The MAX3892 serializer is ideal for converting 4-bitwide, 622Mbps parallel data to 2.5Gbps serial data in
DWDM and SONET/SDH applications. A 4 ✕ 4-bit FIFO
allows for any static delay between the parallel output
clock and parallel input clock. Delay variation up to a
unit interval (UI) is allowed after reset. A fully integrated
phase-locked loop (PLL) synthesizes an internal
2.5GHz serial clock from a 622MHz, 155.5MHz,
77.8MHz, or 38.9MHz reference clock. A selectable
dual VCO allows excellent jitter performance at both
SONET and forward-error correction (FEC) data rates.
MAX3892
+3.3V, 2.5Gbps/2.7Gbps, SDH/SONET 4:1
Serializer with Clock Synthesis
ABSOLUTE MAXIMUM RATINGS
Supply Voltage VCC, VCCO, VCCVCO .....................-0.5V to +5V
All Inputs and FIL .......................................-0.5V to (VCC + 0.5V)
LVDS Output Voltage (PCLKO±)................-0.5V to (VCC + 0.5V)
CML Output Current (SDO±, SCLKO±, SLBO±) ................22mA
Continuous Power Dissipation (TA = +85°C)
44-Pin QFN (derate 25mW/°C above +85°C) ............1625mW
Operating Temperature Range ...........................-40°C to +85°C
Storage Temperature Range .............................-55°C to +150°C
Lead Temperature (soldering, 10s) .................................+300°C
Stresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only, and functional
operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to
absolute maximum rating conditions for extended periods may affect device reliability.
DC ELECTRICAL CHARACTERISTICS
(VCC = +3.0V to +3.6V, TA = -40°C to +85°C. Typical values are at VCC = +3.3V, differential LVDS load = 100Ω ±1%, TA = +25°C,
unless otherwise noted.) (Note 1)
PARAMETER
Supply Current
SYMBOL
ICC
CONDITIONS
MIN
(Note 2)
TYP
MAX
UNITS
138
190
mA
2400
mV
LVDS INPUT SPECIFICATIONS (PDI[3..0]±, PCLKI±)
Input Voltage Range
Differential Input Voltage
VI
0
|VID|
Input Common-Mode Current
100
LVDS input VOS = 1.2V
Threshold Hysteresis
Differential Input Resistance
RIN
83
mV
61
µA
45
mV
100
117
Ω
LVPECL INPUT SPECIFICATIONS (RCLK±)
Input High Voltage
VIH
VCC 1.16
VCC 0.88
V
Input Low Voltage
VIL
VCC 1.81
VCC 1.48
V
Input Bias Voltage
VCC - 1.3
Single-Ended Input Resistance
V
>1.0
Differential Input Voltage Swing
300
kΩ
1900
mVp-p
1.475
V
400
mV
25
mV
1.275
V
25
mV
LVDS OUTPUT SPECIFICATIONS (PCLKO±)
Output High Voltage
VOH
Output Low Voltage
VOL
0.925
|VOD|
250
Differential Output Voltage
Change in Magnitude of
Differential Output Voltage for
Complementary States
∆|VOD|
Offset Output Voltage
Change in Magnitude of Output
Offset Voltage for Complementary
States
2
1.125
∆|VOS|
_______________________________________________________________________________________
V
+3.3V, 2.5Gbps/2.7Gbps, SDH/SONET 4:1
Serializer with Clock Synthesis
(VCC = +3.0V to +3.6V, TA = -40°C to +85°C. Typical values are at VCC = +3.3V, differential LVDS load = 100Ω ±1%, TA = +25°C,
unless otherwise noted.) (Note 1)
PARAMETER
SYMBOL
CONDITIONS
Differential Output Resistance
MIN
TYP
80
MAX
UNITS
140
Ω
Output Current
Shorted together
12
mA
Output Current
Shorted to ground
40
mA
800
1000
mVp-p
100
117
Ω
CML OUTPUT SPECIFICATIONS (SDO±, SCLKO±, SLBO±)
Differential Output
RL = 100Ω differential
Differential Output Resistance
640
83
Output Common-Mode Voltage
RL = 50Ω to VCC
VCC - 0.2
V
LVTTL SPECIFICATIONS (RESET, RATESET, SLBEN, SLBPD FIFOERROR, LOL)
Input High Voltage
VIH
Input Low Voltage
VIL
Input High Current
IIH
Input Low Current
2.0
V
0.8
V
+10
µA
-50
+10
µA
2.4
VCC
V
0.4
V
+500
µA
-30
IIL
Output High Voltage
VOH
IOH = 20µA
Output Low Voltage
VOL
IOL = 1mA
PROGRAMMING INPUTS (CLKSET, MODE)
Input Current
Input = 0 or VCC
-500
AC ELECTRICAL CHARACTERISTICS
(VCC = +3.0V to +3.6V, TA = -40°C to +85°C. Typical values are at VCC = +3.3V, differential LVDS loads = 100Ω ±1%, CML loads =
50Ω ±1%, TA = +25°C, unless otherwise noted.) (Note 3)
PARAMETER
SYMBOL
CONDITIONS
MIN
TYP
MAX
UNITS
PARALLEL INPUT SPECIFICATIONS (PDI±, PCLKI±)
Parallel Input Data Rate
Parallel Input Clock Rate
RATESET = GND
622
RATESET = VCC
666
MODE = OPEN or VCC
622
MODE = SHORT or 30kΩ to GND
311
Mbps
MHz
Parallel Input Setup Time
tSU
(Note 4)
-94
ps
Parallel Input Hold Time
tH
(Note 4)
300
ps
PARALLEL CLOCK OUTPUT SPECIFICATIONS (PCLKO±)
Parallel Clock Output Rise/Fall
Time
tr, tf
20% to 80%
Parallel Clock Output Duty Cycle
100
200
ps
46
54
%
SERIAL OUTPUT SPECIFICATIONS (SDO±, SCLKO±)
Serial Output Data Rate
Serial Data Output Rise/Fall Time
tr, tf
Serial Output Clock to Data Delay
tCLK-Q
RATESET = GND
2.488
RATESET = VCC
2.666
20% to 80%
(Note 5)
-25
Gbps
80
ps
25
ps
_______________________________________________________________________________________
3
MAX3892
DC ELECTRICAL CHARACTERISTICS (continued)
MAX3892
+3.3V, 2.5Gbps/2.7Gbps, SDH/SONET 4:1
Serializer with Clock Synthesis
AC ELECTRICAL CHARACTERISTICS (continued)
(VCC = +3.0V to +3.6V, TA = -40°C to +85°C. Typical values are at VCC = +3.3V, differential LVDS loads = 100Ω ±1%, CML loads =
50Ω ±1%, TA = +25°C, unless otherwise noted.) (Note 3)
PARAMETER
SYMBOL
Serial Clock Output Jitter
Generation
JG
Serial Data Output Random Jitter
RJ
Serial Data Output Deterministic
Jitter
DJ
CONDITIONS
MIN
(Note 6)
TYP
MAX
UNITS
1.2
1.4
psRMS
1.4
psRMS
19
psp-p
(Note 7)
REFERENCE CLOCK INPUT SPECIFICATIONS (RCLK)
Reference Clock Frequency
Tolerance
±100
Reference Clock Input Duty Cycle
ppm
30
70
%
RESET INPUTS (RESET)
Minimum Pulse Width of FIFO
Reset
UI is PCLKO period
4
UI
Tolerated Drift Between PCLKI
and PCLKO After Reset
UI is PCLKO period
±1
UI
Specifications at -40°C are guaranteed by design and characterization.
Measured with SLBO/CLK622 and SCLK outputs disabled and CML outputs open.
AC characteristics are guaranteed by design and characterization.
In 622MHz clock mode, the parallel data is clocked in by the rising edge of the 622MHz/666MHz parallel clock input. In the
311MHz clock mode, the parallel data is clocked in on both the rising and falling edges of the clock. The parallel input
setup and hold time increases by 60ps if the duty cycle is between 48% to 52% in 311MHz mode (Figure 1).
Note 5: Relative to the falling edge of the SCLKO.
Note 6: Measurement bandwidth is BW = 12kHz to 20MHz.
Note 7: Deterministic jitter includes pattern-dependent jitter and pulse-width distortion. Measured using a 27 - 1 PRBS pattern with
96 consecutive identical digits.
Note 1:
Note 2:
Note 3:
Note 4:
4
_______________________________________________________________________________________
+3.3V, 2.5Gbps/2.7Gbps, SDH/SONET 4:1
Serializer with Clock Synthesis
160
MAX3892 toc03
40
35
155
JITTER GENERATION (psp-p)
165
SUPPLY CURRENT (mA)
MAX3892 toc02
MAX3892 toc01
170
POWER-SUPPLY JITTER GENERATION
vs. RIPPLE FREQUENCY
ELECTRICAL EYE DIAGRAM
SUPPLY CURRENT vs. TEMPERATURE
PATTERN 213-1 PRBS
DATA RATE = 2.5Gbps
150
145
140
135
130
30
25
20
15
100mVp-p
10
50mVp-p
5
125
120
-40
-20
0
20
40
60
80
0
50ps/div
100
10
TEMPERATURE (°C)
JITTER GENERATION vs. POWER SUPPLY
NOISE AMPLITUDE (BW = 2MHz)
MAX3892 toc04
5.0
4.5
JITTER GENERATION (psRMS)
100
1k
10k
RIPPLE FREQUENCY (Hz)
4.0
SERIAL-DATA OUTPUT JITTER
MAX3892 toc05
fRCLK = 622MHz
3.5
3.0
2.5
2.0
1.5
1.0
0.5
0
0
50
100
150
200
NOISE AMPLITUDE (Vp-p)
250
5ps/div
TOTAL WIDEBAND RMS JITTER = 1.3ps
PEAK-TO-PEAK JITTER = 15.8ps
Pin Description
PIN
NAME
1, 16, 22, 27,
33, 44
GND
2, 5, 8, 11
VCCO
FUNCTION
Supply Ground
Supply Voltage for Outputs +3.3V. Add bypass capacitors near these pins before connecting to
the VCC power plane.
3
SCLKO-
4
SCLKO+
Negative Serial Clock Output, CML 2.488GHz or 2.666GHz
6
SDO-
Negative Serial Data Output, CML 2.488Gbps or 2.666Gbps
7
SDO+
Positive Serial Data Output, CML 2.488Gbps or 2.666Gbps
Positive Serial Clock Output, CML 2.488GHz or 2.666GHz
_______________________________________________________________________________________
5
MAX3892
Typical Operating Characteristics
(VCC = +3.3V, CML loads AC-coupled to 50Ω ±1%, TA = +25°C, unless otherwise noted.)
+3.3V, 2.5Gbps/2.7Gbps, SDH/SONET 4:1
Serializer with Clock Synthesis
MAX3892
Pin Description (continued)
6
PIN
NAME
FUNCTION
9
SLBO-
Negative System Loop-Back Output or 622MHz/666MHz Clock Output. Select CML data or clock
as shown in Table 1.
10
SLBO+
Positive System Loop-Back Output or 622MHz/666MHz Clock Output. Select CML data or clock as
shown in Table 1.
12
SLBPD
System Loopback Power Down, TTL Input. SLPD = high activates the system loopback output
driver; SLBPD = low powers down the loop-back output driver
13
SLBEN
System Loop-Back Enable Input, TTL Input. SLBEN = high activates the system loop-back output;
SLBEN = low activates the 622MHz/666MHz reference clock output.
14
RESET
FIFO Reset, TTL Input. An active-high reset recenters the FIFO to tolerate maximum skew between
PCLKI and PCLKO.
15
FIFOERROR
17, 28, 36, 41
VCC
Supply Voltage, +3.3V
18
LOL
Loss of Lock, TTL Output. An active low indicates that the VCO and reference frequency differ by
500ppm.
FIFO Error Indicator, TTL Output. Active high when the read/write clocks access the same FIFO
address. This signal may be used to control RESET.
19
MODE
Clock Control Input:
MODE = GND; fPCLKI = 311.04MHz/333MHz with SCLKO active
MODE = 30kΩ to GND; fPCLKI = 311.04MHz/333MHz with SCLKO off
MODE = OPEN (float); fPCLKI = 622.08MHz/666MHz with SCLKO off
MODE = VCC; fPCLKI = 622.08MHz/666MHz with SCLKO active
20
PCLKI+
Positive Parallel Clock, LVDS Input. Data is written to the input register on the clock rising edge in
622Mbps mode and on both rising and falling edges in 311Mbps mode (Figure 1).
21
PCLKI-
Negative Parallel Clock, LVDS Input (Figure 1).
23, 25, 29, 31
PDI3+ to
PDI0+
Positive Data Inputs, LVDS (622Mbps or 666Mbps)
24, 26, 30, 32
PDI3- to
PDI0-
Negative Data Inputs, LVDS (622Mbps or 666Mbps)
34
PCLKO+
Positive Parallel Clock Output, LVDS. This clock may be 622.08MHz or 666MHz.
35
PCLKO-
Negative Parallel Clock Output, LVDS. This clock may be 622.08MHz or 666MHz.
37
RCLK+
Positive Reference Clock Input, LVPECL
38
RCLK-
Negative Reference Clock Input, LVPECL
Reference Clock Rate Programming Pin:
CLKSET = VCC; RCLK = 622.08MHz/666MHz
CLKSET = OPEN (float); RCLK = 155.52MHz/167MHz
CLKSET = 30kΩ to GND; RCLK = 77.76MHz/83.3MHz
CLKSET = GND; RCLK = 38.88MHz/41.6MHz
39
CLKSET
40
RATESET
42
FIL
43
VCCVCO
Supply Voltage for VCO +3.3V. Add bypass capacitors near this pin before connecting to the VCC
power plane.
EP
Exposed
Paddle
The exposed paddle must be soldered to ground for proper thermal and electrical operation.
Data Rate Select, TTL Input. RATESET = high for 2.666Gbps, RATESET = low for 2.488Gbps.
PLL Capacitor Pin. Connect a 0.1µF capacitor from this pin to VCCVCO.
_______________________________________________________________________________________
+3.3V, 2.5Gbps/2.7Gbps, SDH/SONET 4:1
Serializer with Clock Synthesis
The reference clock (RCLK+, RCLK-) has PECL inputs
for interfacing to a crystal oscillator with AC or DC connections. The RCLK inputs are self-biasing to VCC 1.3V for AC-coupled inputs. Only a 100Ω differential
termination resistance must be added when inputs are
AC-coupled.
The MAX3892 converts 4-bit-wide, 622Mbps/667Mbps
data to 2.5Gbps/2.7Gbps serial data (Figure 2). Data is
loaded into the 4:1 MUX through a 4 ✕ 4-bit FIFO buffer
for wide tolerance to clock skew. Clock and data inputs
are LVDS levels while high-speed serial outputs are
CML. An internal PLL frequency synthesizer generates
a serial clock from a low-speed reference clock.
Current-Mode Logic Outputs
The 2.5Gbps/2.7Gbps data, clock, and system loopback outputs (SDO+, SDO-, SCLKO+, SCLKO-,
SLBO+, SLBO-) of the MAX3892 are designed using
current-mode logic (CML). The configuration of the
MAX3892 CML output circuit includes internal 50Ω
back termination to VCC (Figure 3). These outputs are
intended to drive a 50Ω transmission line terminated
with a matched load impedance.
Low-Voltage Differential-Signal
Inputs and Outputs
The MAX3892 has LVDS inputs and outputs for interfacing with high-speed digital circuitry. The LVDS standard is based on the IEEE 1596.3 LVDS specification.
This technology uses differential low-voltage swings to
achieve fast transition times, minimized power dissipation, and noise immunity. For proper operation, the parallel clock LVDS outputs (PCLKO+, PCLKO-) require
100Ω differential DC termination between the positive
and negative outputs. Do not terminate these outputs to
ground. The parallel data and parallel clock LVDS
inputs (PDI+, PDI-, PCLKI+, PCLKI-) are internally terminated with 100Ω differential input resistance, and
therefore do not require external termination.
FIFO Buffer
Data is latched into the MAX3892 by the parallel input
clock PCLKI. The parallel input clock serves as the
FIFO write clock. The parallel output clock PCLKO acts
as the FIFO read clock that loads the 4:1 MUX. The
FIFO allows the read and write clocks to vary by up to
±1UI. Conditions that result in the read and write clock
accessing the same FIFO address are indicated by
1.608ns
DATA
IN
PDI_
622MHz
CLOCK
PCLKI+ - PCLKI-
311MHz
CLOCK
TSU
DATA
OUT
SDO
TH
D3
TSU
D2
D1
TH
D0
tCLK-Q
SCLKO
2.5GHz
CLOCK
NOTE: SIGNALS SHOWN ARE DIFFERENTIAL. FOR EXAMPLE, PCLK0 = (PCLK0+) - (PCLKO-).
*PDI3 = D3; PDI2 = D2...PDI0 = D0. PDI3 IS THE MSB AND IS TRANSMITTED FIRST.
THIS FIGURE IS NOT INTENDED TO SHOW A SPECIFIC TIMING RELATIONSHIP BETWEEN PARALLEL
INPUT DATA AND SERIAL OUTPUT DATA.
Figure 1. Timing Diagram
_______________________________________________________________________________________
7
MAX3892
PECL Inputs
Detailed Description
MAX3892
+3.3V, 2.5Gbps/2.7Gbps, SDH/SONET 4:1
Serializer with Clock Synthesis
Table 1. Loop-Back Operation Mode
SLBPD
VIL
VIH
VIH
SLBEN
VCC
OPEN
30kΩ to GND
GND
RATESET
PCLKI±
FREQUENCY
(MHz)
SCLKO±
FREQUENCY
(GHz)
2.666
SLBO± OUTPUT
X
Power-Down SLBO Output
622MHz/667MHz Clock
Output
VIL
2.5Gbps/2.7Gbps System
Loop-Back Output
VIH
Table 2. Setting the Reference Clock
Frequency
CLKSET
Table 3. Setting the Clock Mode
RATESET
RCLK± FREQUENCY (MHz)
VCC
666
GND
622
VCC
166.5
GND
155.52
VCC
83.25
GND
77.76
VCC
41.63
GND
38.88
latching high FIFOERROR. To clear this condition,
RESET must be asserted high for at least 4UI. FIFOERROR may be tied directly to the RESET input to recenter the FIFO. After reset, the full elastic range of the
FIFO is available again.
Frequency Synthesizer
The PLL synthesizes a 2.5Gbps/2.7Gbps clock (SCLKO) from
an external reference clock. The PLL reference clock (RCLK)
may be 622.08MHz/666.53MHz, 155.52MHz/166.6MHz,
77.76MHz/83.3MHz or 38.88MHz/41.65MHz as determined
by CLKSET and RATESET. See Table 2 for the reference frequency selection. The parallel output clock PCLKO is also
derived from the synthesizer to be SCLKO divided by 4. A
TTL-compatible loss-of-lock indicator, LOL, goes low when the
VCO is unable to lock to the reference frequency. Frequency
difference on RCLK with respect to the divided down SCLKO
greater than 500ppm is indicated by a low state on LOL.
When the frequency difference between the clocks is less
than 250ppm, LOL high indicates a lock condition.
MODE
VCC
OPEN
30kΩ
to
GND
GND
VCC
666Hz
GND
622Hz
2.488
VCC
666Hz
Disabled
GND
622Hz
Disabled
VCC
333Hz
Disabled
GND
311Hz
Disabled
VCC
333Hz
2.666
GND
311Hz
2.488
This reference clock can provide a clock hold-over signal to a clock and data recovery (CDR) circuit in the
event of loss of signal (LOS).
Design Procedure
Clock Mode Selection
The frequencies of the MAX3892 can be set up using
CLKSET, RATESET, and MODE as shown in Tables 2
and 3.
Layout Techniques
For best performance, use good high-frequency layout
techniques. Filter voltage supplies and keep ground
connections short. Use multiple vias where possible.
Also, use controlled-impedance transmission lines to
interface with the MAX3892 clock and data inputs and
outputs.
Exposed-Pad Package
The EP 44-pin QFN incorporates features that provide a
very low thermal-resistance path for heat removal from
the IC to a PC board. The MAX3892’s EP must be soldered directly to a ground plane with good thermal
conductance.
System Loopback
The MAX3892 is designed to allow system loop-back
testing. The loop-back outputs (SLBO+, SLBO-) of the
MAX3892 may be directly connected to the loop-back
inputs of a deserializer (such as the MAX3882) for system diagnostics. Alternatively, the SLBO pins can be
programmed to provide a 622MHz reference clock.
8
_______________________________________________________________________________________
+3.3V, 2.5Gbps/2.7Gbps, SDH/SONET 4:1
Serializer with Clock Synthesis
MAX3892
FIFOERROR RESET
PDI[3..0]+
4
LVDS
MAX3892
D
SDO+
PDI[3..0]-
4-BIT
REG
PCLKI+
LVDS
4x4
FIFO
4:1
MUX
CML
SDO-
CLK
WR/RD
PCLKI-
SLBO+
PCLKO+
CML
SLBO-
LVDS
PCLKO-
SLBPD
SLBEN
RCLK+
LVPECL
SCLKO+
FREQUENCY
GENERATOR
CML
SCLKO-
RCLKLOGIC
CLKSET
RATESET
LOL
MODE
Figure 2. Functional Diagram
VCC
VCC
50Ω
50Ω
OUTPUT CIRCUIT
50Ω
50Ω
INPUT CIRCUIT
Figure 3. Current-Mode Logic
_______________________________________________________________________________________
9
MAX3892
+3.3V, 2.5Gbps/2.7Gbps, SDH/SONET 4:1
Serializer with Clock Synthesis
VOD
VOH
|VOD|
SINGLE-ENDED OUTPUT
VOS
VOL
(VPD+) - (VPD-)
DIFFERENTIAL OUTPUT
+VOD
0 (DIFF)
-VOD
VODp-p
Figure 4. Differential Output Levels
Pin Configuration
PCLKOPCLKO+
35
34
RCLK+
VCC
37
36
40
38
RATESET
CLKSET
RCLK-
41
39
VCC
43
42
GND
VCCVCO
FIL
44
TOP VIEW
GND
VCCO
SCLKOSCLKO+
VCCO
SDO-
1
33
2
32
3
31
4
30
SDO+
VCCO
SLBOSLBO+
7
27
8
26
9
25
10
24
VCCO
11
23
5
29
6
28
PDI2+
PDI3PDI3+
22
21
20
19
18
GND
PDI0PDI0+
PDI1PDI1+
VCC
GND
PDI2-
MODE
PCLKI+
PCLKIGND
17
16
15
13
14
12
SLBEN
RESET
FIFOERROR
GND
VCC
LOL
MAX3892
SLBPD
Chip Information
TRANSISTOR COUNT: 6210
QFN
*THE EXPOSED PADDLE MUST BE SOLDERED TO SUPPLY
GROUND ON THE CIRCUIT BOARD.
10
______________________________________________________________________________________
+3.3V, 2.5Gbps/2.7Gbps, SDH/SONET 4:1
Serializer with Clock Synthesis
QFN 28, 32,44, 48L.EPS
______________________________________________________________________________________
11
MAX3892
Package Information
+3.3V, 2.5Gbps/2.7Gbps, SDH/SONET 4:1
Serializer with Clock Synthesis
MAX3892
Package Information (continued)
Maxim cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim product. No circuit patent licenses are
implied. Maxim reserves the right to change the circuitry and specifications without notice at any time.
12 ____________________Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600
© 2001 Maxim Integrated Products
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