AFBR-1013/AFBR-2013 Fiber Optic Transmitter and Receiver for 50 MBaud MOST® Data Sheet Description Features AFBR-1013 Transmitter and AFBR-2013 Receiver are designed to transmit/ receive up to 25MBit/s optical data which are biphase coded (up to 50Mbaud). Both are packaged in 4-pin transfer molded, low-cost packages ready for assembly into MOST® plastic fiber optic connector receptacles. Solderable with reflow process acc. JEDEC standard J-STD-020D The transmitter utilizes a 650 nm LED source with integrated optics for efficient coupling into 1mm Polymer Optical Fiber (POF), and the receiver contains a high speed PIN diode to receive this light. Power down mode Input/output data has TTL switching levels, compatible with MOST® Network Interface Controller ICs. These optical components are specified for operation over a -40°C to +95°C temperature range, and reliability requirements of automotive applications. It is allowed to process the AFBR-1013/-2013 devices with reflow soldering. In the absence of data activity, the receiver switches to very low power mode. While in this mode, the PIN diode can sense new data activity and switch the receiver back to full operation. Applications Optical Transmitter and Receiver for MOST® 50 Mbaud systems (a full description of the MOST® 50 Mbaud system is available at www.mostcooperation.com) Operating @ 3.3V or 5V (+/-5% each) Power supply Operating temperature range -40°C to +95°C TTL Data Input/ Output (Logic to Light Function) During the low power mode a receiver STATUS-pin indicates if modulated light is received (Light on -> STATUS = low). The power supply of the whole MOST device can be switched on with this Status-pin. Duty Cycle Adjust (DCA), yields to enhanced SP1 input range 650nm for working in a low attenuation range of PMMA Fiber -25dBm guaranteed sensitivity @ 650nm Fully compliant to “MOST® Specification of Physical Layer Rev 1.1” RoHS compliant (Lead free and halogen free) Lead is flash gold Low power consumption Photo current sensing, network activity detection and Low Power Mode (ICC < 10μA) Additional Low Power Mode (ICC < 15μA) for the transmitter when SP1 input is low Signal detect and Status Output Pulse width control Absolute maximum ratings [2] Parameter Symbol Min. Max. Units Supply Voltage [1] VCCMax -0.5 6.0 V Storage Temperature TSTG -40 110 °C -0.5 VCC+0.5 V 2.0 kV Voltage at any PIN Electrostatic Voltage Capability [3] ESD Notes: 1. Maximum supply voltage without causing damage 2. For information regarding the absolete solder ratings see Application Note 5458 (Handling, Storage, Operating and Processing) 3. ESD Capability for all Pins HBM (human body model) according JESD22-A114B Recommended operating conditions Parameter Symbol Min. Max. Units Supply Voltage low VCC_l 3.135 3.465 V Supply Voltage high VCC_hl 4.75 5.25 V Operating temperature (ambient) [1] TA -40 95 °C Notes: 1. For more information see Application Note 5458 (Handling, Storage, Operating and Processing) All the data in this specification refers to the operating conditions above and over lifetime unless otherwise stated. Part Number Options Part Number Part Description Solder Heat Resistance AFBR-1013S/AFBR-2013S Transmitter/Receiver – Short Leads AFBR-1013L/AFBR-2013L Transmitter/Receiver – Long Leads Reflow soldering acc. JEDEC standard J-STD-020D (for more information see Application Note 5458) 2 AFBR-1013 (Transmitter) DC Characteristics Parameter Symbol Min. Low Level Input voltage VIL High Level Input Voltage VIH Input Leakage Current (VCC = 5.0V; VI = 0V or VI =5.0V) IL Typ. Max. Units -0.3 0.8 V 2.0 VCC+0.3 V +/-20 μA 7 pF Input Capacitance CI Input Resistance RI Supply Current Full Power Mode [1] ICC 25 mA Supply Current Low Power Mode [2] ILP2 15 μA 2 kΩ Notes: 1. The current through the LED and therefore the optical output power and overall power consumption depends on the settings of REXT. The nominal value for REXT is 15k. With REXT = 30k the optical output power is about -3dB of the nominal value. Important: The external resistor of REXT must be within the range of 13.5kΩ to 33kΩ. For values out of this range functionality may not be given over the whole temperature range and the device lifetime. 2. If the transmitter is in full power mode it is switched OFF 1ms (max) after Tx DATA is low. If the transmitter is in low power mode it is switched ON 6ms (max) after Tx Data transmission starts. AC Electrical Characteristics Parameter Symbol Typ. Max. Units Power Up Time TPU Min. 0.016 6 ms Data Power Down Time TPD 0.01 1.0 ms Optical Signal Characteristics 45.158Mbaud (44.1kHz) (22.5 MBit/s MOST Data, VCC = 3.135 … 3.465V or 4.75 … 5.25V, REXT = 15kOhm) Parameter Symbol Min. Typ. Max. Units Peak wavelength λPeak 630 650 685 nm Temperature coefficient λPEAK TCλ 0.16 Spectral Bandwidth (FWHM) Deltaλ 20 30 nm Average Output Power coupled into plastic fiber [1] Popt -8.0 -5.2 -2.0 dBm Average Output Power coupled into plastic fiber (if REXT = 13.5k is used instead of REXT =15k) [1] Popt -7.5 -4.7 -1.5 dBm Optical Output Power “Light off ” [2] POFF -50 dBm Optical Rise Time (20% - 80%) [4] tr 2.5 5.98 ns Optical Fall Time (80% - 20%) [4] tf 3.5 5.98 ns Extinction Ratio [4,6] re 10 Pulse Width Variation [3,4,5] tPWV 20.0 24.29 ns Average Pulse Width Distortion [3,4] tAPWD -1.4 1.4 ns Data Dependent Link Jitter [3,4] tDDJ 0.2 0.77 ns Uncorrelated Link Jitter [3,4] tUJ 0.05 0.33 ns nm/K 15 dB Positive Overshoot within 0UI … 2/3UI [4,6] -20 40 % Negative Overshoot within -1UI … -1/4UI [4,6] -10 20 % High Level Signal Ripple between 2/3UI and 3/4UI -10 10 % Notes: 1. Average value when transmitting modulated light @signal timing parameters. The output power coupled into plastic fiber Popt is measured with a large area detector at the end of 30cm POF fiber with a NA = 0.5 which is ideally coupled to the transmitter 2. Average value when signal on Tx_Data is low 3. The electrical input signal has to fulfill the following requirements: tpwv(min) = 20.1ns, tpwv(max) = 24.1ns, ttAPWD(min) = -1.5ns and ttAPWD(max) = 1.5ns, tDDJ(max) = 0.22ns, tUJ(max) = 0.10ns 4. Characterized with Avago Characterization Boards 5. Limits for 2UI are 42.2 … 46.4ns and for 3UI they are 64.3 … 68.5ns. 6. Top and Base level measured at least over 10UIs. 3 Optical Signal Characteristics 49.152Mbaud (48kHz) (24.576 MBit/s MOST Data, VCC = 3.135 … 3.465V or 4.75 … 5.25V, REXT = 15k) Parameter Symbol Min. Typ. Max. Units Peak wavelength λPeak 630 650 685 nm Temperature coefficient λPEAK TCλ 0.16 Spectral Bandwidth (FWHM) Deltaλ 20 30 nm Average Output Power coupled into plastic fiber [1] Popt -8.0 -5.2 -2.0 dBm Average Output Power coupled into plastic fiber (if REXT = 13.5k is used instead of REXT =15k) [1] Popt -7.5 -4.7 -1.5 dBm Optical Output Power “Light off ” [2] POFF -50 dBm Optical Rise Time (20% - 80%) [4] tr 2.5 5.49 ns Optical Fall Time (80% - 20%) [4] tf 3.5 5.49 ns Extinction Ratio [4,6] re 10 Pulse Width Variation [3,4,5] tPWV 18.4 22.3 ns Average Pulse Width Distortion [3,4] tAPWD -1.28 1.28 ns Data Dependent Link Jitter [3,4] tDDJ 0.2 0.71 ns Uncorrelated Link Jitter [3,4] tUJ 0.05 0.31 ns nm/K 15 dB Positive Overshoot within 0UI … 2/3UI [4,6] -20 40 % Negative Overshoot within -1UI … -1/4UI [4,6] -10 20 % High Level Signal Ripple between 2/3UI and 3/4UI -10 10 % Notes: 1. Average value when transmitting modulated light @signal timing parameters. The output power coupled into plastic fiber Popt is measured with a large area detector at the end of 30cm POF fiber with a NA = 0.5 which is ideally coupled to the transmitter 2. Average value when signal on Tx_Data is low 3. The electrical input signal has to fulfill the following requirements: tpwv(min) = 18.4ns, tpwv(max) = 22.3ns, ttAPWD(min) = -1.28ns and ttAPWD(max) = 1.28ns, tDDJ(max) = 0.2ns, tUJ(max) = 0.09ns 4. Characterized with Avago Characterization Boards 5. Limits for 2UI are 38.72 … 42.66ns and for 3UI they are 59.06 … 63.01ns. 6. Top and Base level measured at least over 10UIs. 4 Package Dimensions Transmitter Transmitter Short Lead Option (AFBR-1013S) Unit: mm For more information see package outline drawing Pin Description Transmitter Pin Name Function/Description 1 Data In = Data Input 2 GND = Ground 3 VCC = Power 3.3V or 5V (+/-5% each) 4 CONT = Connection to LED Current Control Resistor Transmitter Long Lead Option (AFBR-1013L) 5 Device Marking Transmitter AFBR-2013 (Receiver) Optical Input Signal Characteristics (22.5 MBit MOST Data, VCC = 3.135 … 3.465V or 4.75 … 5.25V) Parameter Symbol Min. Typ. Max. Units Peak wavelength of input signal λPeak 630 650 685 nm FWHM of input signal Δλ 30 nm Receiveable optical power range for data recovery [1,2] Popt -25 -2 dBm Receiveable optical power for switching to low power mode [1] POFF -40 -25 dBm Notes: 1. Optical power data are average values when using any MOST25 optical transmitter, measured at the end of a plastic optical fiber with metal insert (diameter 2.90 +/- 0.02mm). The transmitter data is biphase coded. 2. Measured with worst case pattern a BER ≤ 10-9 can be reached DC Electrical Characteristics Parameter Symbol Min. Typ. Max. Units Supply Voltage low VCC_l 3.135 3.3 3.465 V Supply Voltage high VCC_hl 4.75 5 5.25 V Low Level Output Voltage Data and Status Pin [1] VOL 0.4 V High Level Output Voltage Data Pin [1] VOH 2.5 3.3 VCC+0.3 V High Level Output Voltage Status Pin [1] VOH 2.5 VCC V Supply Current Full Power Mode ICC, FPM 15 mA Supply Current Low Power Mode ICC, LPM 10 μA Notes: 1. Resistor load must not be smaller than 50k 6 AC Electrical Characteristics 45.158Mbaud (44.1kHz) Parameter Symbol Typ. Max. Units Output Rise Time @VCC_l [1,4,6] tr_l 6 9 ns Output Rise Time @VCC_h [1,4,6] tr_h 5 9 ns [1,4,6] Min. tf_l 6 9 ns Output Fall Time @VCC_h [1,4,6] tf_h 5 9 ns Output Pulse Width Variation 1UI [1,2,3,4,5] tPWV 16.5 31 ns Output Average Pulse Width Distortion [1,2,3,4] tAPWD -3.3 7 ns Data Dependent Link Jitter [2,3,4] tDDJ 3.3 ns Uncorrelated Link Jitter [2,3,4] tUJ 1.0 ns Power-up time at detection of rising VCC tPUO 0.1 6 ms Power-up time from low power mode tPU 0.5 6 ms Low Power mode timer delay tLPM 0.005 2 ms Output Fall Time @VCC_l Notes: 1. Maximum Capacitive Load is 10pF 2. MOST Data 44.1kHz FS corresponds to a 45MBaud data stream 3. The optical input signal has to fulfill following requirements: tPWV(min) = 20.0ns, tPWV(max) = 24.3ns; tAPWD(min) = -1.4ns and tAPWD(min) = 1.4ns, tDDJ(max) = 0.77ns, tUJ(max) = 0.33ns, Positive Overshoot within 0UI…2/3UI = -20…40%, Extinction Ratio min = 10dB. Variations within those limits do not change tPWV significantly. 4. Characterized with Avago Characterization Boards 5. Limits for 2UI are 38.6 … 53.1 and for 3UI they are 60.8 … 75.2ns. 6. Output Rise Time from 10% - 90%, Output Fall Time from 90% - 10% AC Electrical Characteristics 49.152Mbaud (48kHz) Parameter Symbol Output Rise Time @VCC_l [1,4,6] Output Rise Time @VCC_h [1,4,6] Output Fall Time @VCC_l [1,4,6] Min. Typ. Max. Units tr_l 6 9 ns tr_h 5 9 ns tf_l 6 9 ns Output Fall Time @VCC_h [1,4,6] tf_h 5 9 ns Output Pulse Width Variation 1UI [1,2,3,4,5] tPWV 15.12 28.48 ns Output Average Pulse Width Distortion [1,2,3,4] tAPWD -3 6.4 ns Data Dependent Link Jitter [2,3,4] tDDJ 3.0 ns Uncorrelated Link Jitter [2,3,4] tUJ 0.9 ns Power-up time at detection of rising VCC tPUO 0.1 6 ms Power-up time from low power mode tPU 0.5 6 ms Low Power mode timer delay tLPM 0.005 2 ms Notes: 1. Maximum Capacitive Load is 10pF 2. MOST Data 48kHz FS corresponds to a 49.152MBaud data stream 3. The optical input signal has to fulfill following requirements: tPWV(min) = 18.37ns, tPWV(max) = 22.32ns; tAPWD(min) = -1.28ns and tAPWD(min) = 1.28ns, tDDJ(max) = 0.71ns, tUJ(max) = 0.3ns, Positive Overshoot within 0UI…2/3UI = -20…40%, Extinction Ratio min = 10dB. Variations within those limits do not change tPWV significantly. 4. Characterized with Avago Characterization Boards 5. Limits for 2UI are 35.47 … 48.825 and for 3UI they are 55.81 … 69.17ns. 6. Output Rise Time from 10% - 90%, Output Fall Time from 90% - 10% 7 Package Dimensions Receiver Receiver Short Lead Option (AFBR-2013S) Unit: mm For more information see package outline drawing Pin Description Receiver Pin Name Function/Description 1 VCC = Power 3.3V or 5V (+/-5% each) 2 GND = Ground 3 MODEOUT = Mode Output 4 VOUT = Data Output Receiver Long Lead Option (AFBR-2013L) 8 Device Marking Receiver For product information and a complete list of distributors, please go to our web site: www.avagotech.com Avago, Avago Technologies, and the A logo are trademarks of Avago Technologies in the United States and other countries. Data subject to change. Copyright © 2005-2012 Avago Technologies. All rights reserved. AV02-2221EN - March 22, 2012