MONOLITHIC MANCHESTER ENCODER/DECODER (SERIES 3D3523) All-silicon
|
|
|
Top Searches for this datasheet
3D3523
MONOLITHIC MANCHESTER ENCODER/DECODER (SERIES 3D3523)
All-silicon, low-power CMOS technology Encoder decoder function independently Encoder buffered clock output 3.3V operation Vapor phase, wave solderable ground bounce noise Maximum data rate: MBaud Data rate range: ±15% Lock-in time:
mechanical dimensions, click here. package marking details, click here.
COUT RESB
data delay devices, inc.
PACKAGES
CBUF LOOP TXENB DOUTB
3D3523D-xxx SOIC (.150)
FUNCTIONAL DESCRIPTION
3D3523 monolithic CMOS Manchester Encoder/Decoder combo chip. device uses bi-phase-level encoding embed clock signal into data stream transmission across communications link. this encoding mode, logic represented high-to-low transition center cell, while logic zero represented low-to-high transition. Manchester encoder combines clock (CIN) data (DIN) into single bi-phase-level signal (TX). inverted version this signal (TXB) also available. data baud rate MBaud) equal input clock frequency MHz). replica clock input also available (CBUF). encoder reset setting RESB input low; otherwise, should left high. signals disabled (high-Z) setting TXENB high. Similarly, CBUF disabled setting low. Under most operating conditions, always enabled, CBUF used. With this mind, 3D3523 provides internal pulldown resistors TXENB, that most users leave these inputs uncommitted.
DESCRIPTIONS
Encoder: Clock Input Data Input RESB Reset Clock buffer enable TXENB Transmit enable CBUF Buffered clock TX,TXB Transmitted signal Decoder: Received Signal COUT Recovered Clock DOUTB Recovered Data Common: LOOP Loop enable +3.3 Volts Ground
Manchester decoder accepts embedded-clock signal input. recovered clock data signals presented COUT DOUTB, respectively, with data signal inverted. operating baud rate MBaud) specified dash number device. input baud rate vary much ±15% from nominal device baud rate without compromising integrity information received. Because decoder PLL-based, does require long preamble order lock onto received signal. Rather, device requires most cell before data presented output valid. This extremely useful cases where information arrives bursts input otherwise turned off. Normally, encoder decoder function independently. However, LOOP input high, encoded signal back internally into decoder input ignored. This feature useful diagnostics. LOOP input internal pull-down resistor left uncommitted this feature needed. 2007 Data Delay Devices
#06006
10/31/2007
DATA DELAY DEVICES, INC.
Prospect Ave. Clifton, 07013
3D3523 TABLE PART NUMBER SPECIFICATIONS
PART NUMBER
3D3523D-0.5 3D3523D-1 3D3523D-5 3D3523D-10 3D3523D-20 3D3523D-25 3D3523D-50 NOTE:
DECODER BAUD RATE (MBaud) Nominal Minimum Maximum
0.50 1.00 5.00 10.00 20.00 25.00 50.00 0.43 0.85 4.25 8.50 17.00 21.25 42.50 0.57 1.15 5.75 11.50 23.00 28.75 57.50
baud rate between MBaud shown also available extra cost.
APPLICATION NOTES
ENCODER
Manchester encoder subsystem samples data input rising edge input clock. sampled data used conjunction with clock rising falling edges generate byphase level Manchester code. encoder employs timing clock rising falling edges (duty cycle) implement required coding scheme, shown Figure reduce difference between output data high time time, essential that deviation input clock duty cycle from 50/50 minimized. encoder presents outputs true complimented encoded data. High-toLow time skew selected data output should budgeted user, relates application, satisfactorily estimate distortion transmitted data stream. Such estimate very useful determining functionality margins data link, Manchester decoder used decode received data.
RESET (RESB)
(Left high normal operation)
CLOCK (CIN)
DATA (DIN)
TRANSMIT (TXB) TRANSMIT (TX)
Figure Timing Diagram (Encoder)
#06006
10/31/2007
DATA DELAY DEVICES, INC.
Tel: 973-773-2299 Fax: 973-773-9672 http://www.datadelay.com
3D3523
APPLICATION NOTES (CONT'D)
DECODER
Manchester decoder subsystem samples input precise pre-selected intervals retrieve data recover clock from received data stream. architecture comprises finely tuned delay elements proprietary circuitry which, conjunction with other circuits, implement data decoding clock recovery function. Typically, encoded data transmitted from source arrives decoder corrupted. Such corruption received data manifests itself jitter and/or pulse width distortion decoder input. instantaneous deviations from nominal Baud Rate and/or Pulse Width (high low) adversely impact data extraction clock recovery function their published limits exceeded. Table Allowed Baud Rate/Duty Cycle. decoder, being selftimed device, tolerant frequency modulation (jitter) present input data stream, provided that input data pulse width variations remain within allowable ranges. decoder presents outputs decoded data (inverted) recovered clock. decoded data valid rising edge clock. clock recovery function operates modes dictated input data stream sequence. When data succeeded inverse, clock recovery circuit engaged forces clock output time equal over twice baud rate. Otherwise, input presented clock output unchanged, shifted time. Therefore, clock duty cycle strongly dependent baud rate, this will affect clock-high duration. clock output falling edge operated clock recovery circuitry. therefore, preserves more accurately clock frequency information embedded transmitted data. therefore used, desired, retrieve clock frequency information.
INPUT SIGNAL CHARACTERISTICS
3D3523 inputs CMOS compatible. user should assure him/herself that VDD) threshold used when referring timing, especially input clock duty cycle (encoder) received data (decoder).
POWER SUPPLY TEMPERATURE CONSIDERATIONS
CMOS integrated circuitry strongly dependent power supply temperature. monolithic 3D3523 Manchester encoder/decoder utilizes novel innovative compensation circuitry minimize timing variations induced fluctuations power supply and/or temperature. Nevertheless, optimum performance achieved providing stable power supply clean ground plane, placing bypass capacitor (0.1uf typically) close device possible.
ENCODED RECEIVED (RX)
CLOCK (CLK) DATA (DATB) DECODED
tCWL
Figure Timing Diagram (Decoder)
#06006
10/31/2007
DATA DELAY DEVICES, INC.
Prospect Ave. Clifton, 07013
3D3523
DEVICE SPECIFICATIONS
TABLE ABSOLUTE MAXIMUM RATINGS
PARAMETER Supply Voltage Input Voltage Input Current Storage Temperature Lead Temperature SYMBOL TSTRG TLEAD -0.3 -0.3 VDD+0.3 UNITS NOTES
TABLE ELECTRICAL CHARACTERISTICS
(-40C 85C, 3.0V 3.6V) PARAMETER Static Supply Current* High Level Input Voltage Level Input Voltage High Level Input Current Level Input Current High Level Output Current Level Output Current Output Rise Fall Time SYMBOL -4.0 UNITS NOTES
3.0V 2.4V 3.0V 0.4V
*IDD(Dynamic) where: Average capacitance load/pin (pf) Input frequency (GHz)
Input Capacitance typical Output Load Capacitance (CLD)
TABLE ELECTRICAL CHARACTERISTICS
(-40C 85C, 3.0V 3.6V, except noted) PARAMETER
Input Baud Rate (Encoder) Clock Frequency Data set-up clock rising Data hold from clock rising High-Low time skew High-Low time skew High/Low time skew Nominal Input Baud Rate (Decoder) Allowed Input Baud Rate Deviation Allowed Input Baud Rate Deviation Allowed Input Baud Rate Deviation Allowed Input Duty Cycle Cell Time Input Data Edge Clock Falling Edge Clock Width Clock Falling Edge Data Transition SYMBOL
tCWL
-3.5 -2.0 -3.0 -0.15 -0.05 -0.03 42.5 50.0 1000/fB 0.75 500/fBN
0.15 0.05 0.03 57.5
UNITS MBaud MBaud MBaud MBaud MBaud
NOTES
25C, 3.3V 3.0V 3.6V -55C 125C 3.0V 3.6V
±2ns
Notes: Assumes duty cycle clock input
#06006
10/31/2007
DATA DELAY DEVICES, INC.
Tel: 973-773-2299 Fax: 973-773-9672 http://www.datadelay.com
3D3523
AUTOMATED TESTING MONOLITHIC PRODUCTS
TEST CONDITIONS
INPUT: Ambient Temperature: 25oC Supply Voltage (Vcc): 5.0V 0.1V Input Pulse: High 3.0V 0.1V 0.0V 0.1V Source Impedance: Max. Rise/Fall Time: Max. (measured between 0.6V 2.4V Pulse Width: PWIN 1/(2*BAUD) Period: PERIN 1/BAUD OUTPUT: Rload: Cload: Threshold: 1.5V (Rising Falling)
Device Under Test
Digital Scope
NOTE: above conditions test only restrict operation device.
COMPUTER SYSTEM
PRINTER
WAVEFORM GENERATOR
TRIG
DEVICE UNDER TEST (DUT)
TRIG
DIGITAL SCOPE
Figure Test Setup
PERIN tRISE INPUT SIGNAL
2.4V 1.5V 0.6V
tFALL
2.4V 1.5V 0.6V
tPHL
tPLH OUTPUT SIGNAL
1.5V
1.5V
Figure Timing Diagram
#06006
10/31/2007
DATA DELAY DEVICES, INC.
Prospect Ave. Clifton, 07013
Other recent searches
WM8955BL-6100-CO28-M - WM8955BL-6100-CO28-M WM8955BL-6100-CO28-M Datasheet
KA3022D - KA3022D KA3022D Datasheet
IRFD220 - IRFD220 IRFD220 Datasheet
CECC-331 - CECC-331 CECC-331 Datasheet
CECC-631 - CECC-631 CECC-631 Datasheet
CECC-341 - CECC-341 CECC-341 Datasheet
CECC-641 - CECC-641 CECC-641 Datasheet
CECC-351 - CECC-351 CECC-351 Datasheet
CECC-651 - CECC-651 CECC-651 Datasheet
CECC-361 - CECC-361 CECC-361 Datasheet
CECC-661 - CECC-661 CECC-661 Datasheet
CECC-332 - CECC-332 CECC-332 Datasheet
CECC-632 - CECC-632 CECC-632 Datasheet
CECC-342 - CECC-342 CECC-342 Datasheet
CECC-642 - CECC-642 CECC-642 Datasheet
CECC-352 - CECC-352 CECC-352 Datasheet
CECC-652 - CECC-652 CECC-652 Datasheet
CECC-362 - CECC-362 CECC-362 Datasheet
CECC-662 - CECC-662 CECC-662 Datasheet
CECC-333 - CECC-333 CECC-333 Datasheet
CECC-343 - CECC-343 CECC-343 Datasheet
CECC-353 - CECC-353 CECC-353 Datasheet
CECC-363 - CECC-363 CECC-363 Datasheet
CECC-334 - CECC-334 CECC-334 Datasheet
CECC-344 - CECC-344 CECC-344 Datasheet
CECC-354 - CECC-354 CECC-354 Datasheet
CECC-364 - CECC-364 CECC-364 Datasheet
CECC-335 - CECC-335 CECC-335 Datasheet
CECC-345 - CECC-345 CECC-345 Datasheet
CECC-355 - CECC-355 CECC-355 Datasheet
CECC-365 - CECC-365 CECC-365 Datasheet
ATA6661 - ATA6661 ATA6661 Datasheet
AK5388 - AK5388 AK5388 Datasheet
AK53888kHz - AK53888kHz AK53888kHz Datasheet
AK538844pin - AK538844pin AK538844pin Datasheet
1SS392 - 1SS392 1SS392 Datasheet
Privacy Policy | Disclaimer
© 2012 Datasheet Archive
