Preliminary Information This document contains information on a new product. The parametric information, although not fully characterized, is the result of testing initial devices. MC2042-3 LED/Laser Driver for FDDI, Fast Ethernet, Fibre Channel, OC3/STM-1, IEEE1394 The MC2042-3 is a CMOS IC designed for high-speed LED drive in low-cost optical fiber based transmission systems. Depending on the LED used, data rates to >500Mbps can be achieved. The LED drive current is set by a resistor. To improve LED `on' time, a pre-emphasis circuit is included, which may be set via a simple RC network. To minimize the effects of temperature on LED output power, LED drive temperature compensation can be set by resistor over a 0 - 10,000 ppm/C range. Differential positive-ECL (PECL) data on the input pins can be shaped, if desired, by the differential voltage on the Pulse Width Adjust (PWA) pins. This adjustment is continuous over a 500 ps range. In addition, the VREF output pin allows single-ended input to the MC2042 and provides compatibility with industry-standard FO modules. Features * FDDI, fiber Channel * Fast Ethernet, IEEE1394 * OC3/STM1 * Data rates to >500 Mbps, depending on LED * Single chip solution, available as die or in TSSOP20 or QSOP16 fabricated in deep sub-micron CMOS for lowest cost & power consumption and long term reliability * Programmable output current from 30 mA to 100 mA * RC programmable pre-emphasis or `peaking' circuit giving drive current rise and fall times <500 ps * Resistor programmable compensation for temperature dependence of LED output power * PECL input with optional Pulse Width Adjust * Single-ended CMOS input compatible at low speeds * VREF voltage generator and output pin * Supports most LED types (e.g. 660 to 1300 nm) * Single +5 V to +3.3 V operation * Available in an RoHS-compliant package Typical Applications Diagram V DD1 D IN D IN V DD2 IOUT IOUT PEAK Input Data Pulse Shaping Current Switch and Peaking Control V REF Generator Programmable Current Sink PWA PWA V REF GND 02042-DSH-002-C GND RT SET Mindspeed TechnologiesTM Preliminary Information/Mindspeed Proprietary and Confidential RT SET2 September 2005 Preliminary Information Applications Ordering Information (1) Part Number Package Operating Temperature M02042-3-xxx Waffle Pack Expanded Whole Wafer on a Ring QSOP16 TSSOP20 QSOP16 Tape and Reel TSSOP20 Tape and Reel -40 C to 85 C M02042G-3-xxx (2) Waffle Pack Expanded Whole Wafer on a Ring QSOP16 TSSOP20 QSOP16 Tape and Reel TSSOP20 Tape and Reel -40 C to 85 C Preliminary Information Notes: 1. Because the current Mindspeed part number standard uses an M0 prefix, it is used for ordering the MC2042 but the part is still marked as an MC2042 device. 2. The letter "G" designator after the part number indicates that the device is RoHS-compliant. Refer to www.mindspeed.com for additional information. Note: xx represents the revision number. Please contact your local sales office for correct digits. Revision History ASIC Revision Revision Level Date C Preliminary September 2005 B Preliminary February 2004 Description Minor update in new data sheet format. ILED_ON specification changed, RoHS packaging information Revision B release. - Revised Ordering Information, reformatted document, added references to lead-free and RoHS-compliant packaging options to package specifications. Typical Eye Diagram Pin Configuration TSSOP20 NC PWAPWA- 1 20 NC 2 19 GND 3 18 GND DIN 4 17 IOUT DIN 5 16 IOUT VREF 6 15 IOUT RESET2 7 14 PEAK RTSET 8 13 VDD2 VDD1 9 12 VDD2 NC 10 11 NC PWA- 1 16 GND PWA+ 2 15 GND DIN 3 14 IOUT DIN 4 13 IOUT VREF 5 12 IOUT RTSET2 6 11 PEAK RTSET 7 10 VDD2 VDD1 8 9 VDD2 MC2042-3 QSOP16 02042-DSH-002-C Mindspeed TechnologiesTM Preliminary Information/Mindspeed Proprietary and Confidential MC2042-3 ii 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. Note: The package bottom must be adequately grounded to ensure correct thermal and electrical performance, and it is recommended that vias are inserted through to a lower ground plane. Absolute Maximum Ratings Symbol Parameter PTOT Total power dissipation (TSSOP20) VCC Power supply (VCC-GND) Rating Units 255 mW 7 V 150 C TJ Junction temperature TA Operating ambient -40 to +85 C Storage temperature -65 to +150 C TSTG 1.2 Preliminary Information Table 1-1. DC Characteristics VCC = +3.3V 7.5% or +5V 7.5%, TA = -40C to +85C, unless otherwise noted. Typical specifications are for VCC = 3.3V, TA = 25C, unless otherwise noted. Table 1-2. DC Characteristics Symbol Parameter Min Typ Max Units 3.0 - 5.5 V Gnd - 0.3 - VCC+0.3 30 - 100 mA VCC Supply Voltage Din Allowable voltage at data inputs ILED' ON LED drive current ILED' OFF LED off current - - 50 A ICOMP LED drive current temperature compensation range 0 - 1 %/C V_LED_H minimum allowable voltage at IOUT VDD-2.0 - - V 02042-DSH-002-C Mindspeed TechnologiesTM Preliminary Information/Mindspeed Proprietary and Confidential 1 Product Specification 1.3 AC Characteristics VCC = +3.3V 7.5% or +5V 7.5%, TA = -40C to +85C, input bit rate = 1.25 Gbps 223-1 PRBS unless otherwise noted. Typical specifications are for VCC = 3.3V, TA = 25C, unless otherwise noted. Table 1-3. AC Characteristics Symbol Vin(Diff) Parameter Min Typ Max Units Differential Input Voltage, 2*(DinH - DinL) 300mV - 2*Vcc V Common Mode Input Voltage VCC/2 - (Vcc-(Vin[Diff])/4) V Maximum data rate 300 - - Mbps TPWA Input data pulse width adjust range -500 - 500 ps LED tr LED drive rise time - - 1 ns LED tf LED drive fall time - - 1 ns IPEAK Peaking current (as % of LED drive current) 0 - 50 % PEAK tr Peaking current rise time - - 1 ns PEAK tf Peaking current fall time - - 1 ns PEAK td Peaking current decay time - C1x(R4+5) - S IDD Supply current - - ILED+20 mA 02042-DSH-002-C Mindspeed TechnologiesTM Preliminary Information/Mindspeed Proprietary and Confidential Preliminary Information fC 2 2.0 Pin Definitions Table 2-1. Pin Descriptions TSSOP20 Pin QSOP16 Pin Die Pin Name 1 - - NC 2 1 13 PWA Inverse pulse width adjust input 3 2 14 PWA Differential pulse width adjust input. Allows continuous adjustment of input data pulse width 4 3 15 DIN Differential data input 5 4 16 DIN Inverse differential data input 6 5 1 VREF 7 6 2 RTSET2 Temperature compensation adjustment pin. Allows temperature dependence of LED light output to be reduced or removed 8 7 3 RTSET Sets nominal LED drive current 9 8 4 VDD1 Power pin, connect to most positive supply 10 - - NC Not connected 11 - - NC Not connected 12 9 5 VDD2 LED shorting pin, connect to most positive supply. Speeds LED switch off 13 10 6 VDD2 LED shorting pin, connect to most positive supply. Speeds LED switch off 14 11 7 PEAK Connection for pre-emphasis or peaking circuit 15 12 8 IOUT Driver output. Connect LED between this pin and VDD 16 13 9 IOUT Driver output. Connect LED between this pin and VDD 17 14 10 IOUT Logical inverse of pin Iout. Connect resistor of approximately the same value as LED (at the programmed drive current level) between this pin and VDD 18 15 11 GND Ground pin. Connect to the most negative supply 19 16 12 GND Ground pin. Connect to the most negative supply 20 - - NC 02142-DSH-002-C Description Not connected, leave open Reference output. Can be used with single-ended data input Not connected, leave open Mindspeed TechnologiesTM Preliminary Information/Mindspeed Proprietary and Confidential 3 Pin Definitions VREF DIN DIN Bare Die RTSET2 2 1 16 15 3 14 PWA VDD1 4 13 PWA VDD2 5 12 GND VDD2 6 11 GND 9 10 IOUT RTSET IOUT Figure 2-1. 8 IOUT PEAK 7 Die size: 1.0 x 1.0 mm Pad openings: 95 um square Table 2-2. Bare Die Pad Coordinates Pad Description X Y Pad Description X Y 1 VREF -73 394.5 9 IOUT 73 -394.5 2 RTSET2 -219 394.5 10 IOUT 219 -394.5 3 RTSET -397 214.7 11 GND 397 -223.3 4 VDD1 -397 68.7 12 GND 397 -77.3 5 VDD2 -397 -77.3 13 PWA 397 68.7 6 VDD2 -397 -223.3 14 PWA 397 214.7 7 PEAK -219 -394.5 15 DIN 219 394.5 8 IOUT -73 -394.5 16 DIN 73 394.5 02142-DSH-002-C Mindspeed TechnologiesTM Preliminary Information/Mindspeed Proprietary and Confidential 4 3.0 3.1 Functional Description Overview The MC2042-3 is a CMOS IC designed for high-speed LED drive in low-cost optical fiber based transmission systems. Depending on the LED used, data rates to >500 Mbps can be achieved. The LED drive current is set by a resistor. To improve LED `on' time, a pre-emphasis circuit is included, which may be set via a simple RC network. Differential positive-ECL (PECL) data on the input pins can be shaped, if desired, by the differential voltage on the Pulse Width Adjust (PWA) pins. This adjustment is continuous over a 500 ps range. In addition, the VREF output pin allows single-ended input to the MC2042 and provides compatibility with industry-standard FO modules. 3.1.1 Signal Path Description Differential Positive-ECL (PECL) data on the data input pins controls the LED current switch. The LED current flows either through the LED or via the dummy load so that VDD noise is minimized. To reduce LED `turn-off' time, the LED is momentarily short-circuited, via VDD2, before the current is switched to the dummy load. 3.1.2 Data Inputs Data inputs DIN and /DIN are compatible with standard CMOS logic as well as differential logic families. These inputs may be used in a differential or single-ended configuration. If the inputs are to be used single-ended, the unused input should be connected to pin VREF. VREF should not be loaded by external current sources or sinks. 3.1.3 LED Drive and Temperature Compensation The LED drive current and temperature compensation is set by the two resistors R1 and R2. The simplified application diagram (Figure 3) shows R1 connected between RTSET and GND, and R2 between RTSET and the RTSET2 pin. The current flowing out of the RTSET pin determines the LED drive current. The temperature independent component of the LED drive current is set primarily by R1. The temperature dependent component by R2. However, R1 and R2 are not independent. The RTSET2 pin connects to an internal diode on the IC which exhibits standard diode behaviour with temperature. As temperature rises, the voltage on the diode drops, the current flowing through R2 increases and the LED drive current increases. 02042-DSH-002-C Mindspeed TechnologiesTM Preliminary Information/Mindspeed Proprietary and Confidential 5 Preliminary Information To minimize the effects of temperature on LED output power, LED drive temperature compensation can be set by resistor over a 0 - 10,000 ppm/C range. Functional Description Given the various interdependencies of the drive current, R1, R2, and temperature compensation, the relationships have been tabulated (see Temperature Compensation table). Please contact Mindspeed if other combinations are required. The LED 'on' current is controlled to 10%. A Microsoft Excel file is available from Mindspeed which will calculate appropriate values for RTset resistors R1 and R2 given your LED current, forward voltage, and LED temperature coefficient. The file may be obtained from a Mindspeed Field Applications Engineer and is named 'MC2042-3 resistor selection.xls'. See section Temperature Compensation Tables if the spreadsheet is not available. Figure 3-1. LED Drive and Temperature Compensation RTSET RTSET2 (unused) R1 3.1.4 External Diode for Temp. Comp. Transmit Enable/Disable There is no dedicated pin on the MC2042 to disable the LED drive current. However, the LED drive current can be disabled by disabling the current out of pin RTSET. The LED current is approximately 100x the current out of pin RTSET, so if the current out of this pin is 0, the LED drive current is 0. However, if peaking is used the peaking current will not be disabled. Figure 3-2 illustrates how the current out of RTSET can be disabled by adding a MOSFET (Q1) at the RTSET node of the R1/R2 temperature compensation network. The voltage on the gate of Q1 then controls transmit enable/dis- 02042-DSH-002-C Mindspeed TechnologiesTM Preliminary Information/Mindspeed Proprietary and Confidential 6 Preliminary Information R2 Functional Description able. When selecting Q1, a MOSFET should be chosen with an Rds(on) which is negligible compared to R1 and R2. Figure 3-2. Transmit Enable/Disable RTSET RTSET2 Transmit Enable R2 R1 Pre-Emphasis Or `Peaking' To improve LED `turn on' time an optional pre-emphasis function is included on the MC2042-3. If this is not required, then the PEAK pin should be left floating. Two external components (R4, C1) are required as shown in Figure 4-1 to implement peaking. When the LED is turned on, the voltage on PEAK is pulled LOW very rapidly. This voltage transient is coupled through R4 and C1 and exerts a transient current on the LED. When the LED is turned off, the voltage on PEAK is pulled HIGH rapidly. This voltage transient is coupled through R4 and C1 and exerts a transient current in the opposite direction on the LED. The transient current amplitude and RC decay are given approximately by: Peak current (Amps): 4/(R4 + 5) Decay (seconds): C1 x (R4 + 5) The above approximations assume an ideal LED model with 0 Ohms resistance. Real LEDs will slightly alter the peaking effect. Typical values for R4 and C1 are: R4 = 50 C1 = 20 pF 3.1.6 LED Clamping, Laser Driving Since most LEDs exhibit a longer `turn off' time than `turn on' time, a clamping function is included on the MC2042 in order to reduce the `turn off' time. Clamping is enabled via the two VDD2 connections. The disadvantage of clamping is that the LED's internal capacitance has to be fully charged again before the LED starts to emit light. This delayed `turn on' effect becomes noticeable when the nominal LED drive current is low. Use of the peaking circuit helps solve this problem. Thus, the combination of peaking and clamping results in very fast `turn on' and `turn off' times for the LED. 02042-DSH-002-C Mindspeed TechnologiesTM Preliminary Information/Mindspeed Proprietary and Confidential 7 Preliminary Information 3.1.5 Functional Description When driving lasers, it will often be helpful to disable this clamping. This can be achieved by leaving the VDD2 connections floating. VDD1 must still be connected. 3.1.7 LED Drive Pulse Width Adjust (PWA) The input pulse width can be adjusted prior to application to the LED switch. The differential voltage on the PWA (Pulse Width Adjust) pins shapes the input pulse linearly over a nominal -500 to +500 ps range, according to the formula: Delta PW (ps) = K x VPWA Where: K = 500 100 and VPWA = (VPWA+) - (VPWA-) Preliminary Information The maximum range for VPWA is 1V. The input impedance is 3.6 k. VPWA+ and VPWA- will settle at a nominal voltage equal to (0.6 * VDD) if left floating. It is recommended that adjustment be implemented by pull down resistors on PWA+ or PWA-. However, it is common for one or other pin to be tied to ground as a zero-cost, `gross' adjustment. If pulse width adjustment is not required PWA+ and PWA- should be tied to ground. 3.1.8 Eye Diagram The eye diagram below is typical of the electrical output of the MC2042-3. The crossover point can be moved up and down using the PWA pin. The overshoot can be increased by using the PEAK pin. Figure 3-3. 02042-DSH-002-C Eye Diagram Mindspeed TechnologiesTM Preliminary Information/Mindspeed Proprietary and Confidential 8 Functional Description 3.1.9 Temperature Compensation Tables An EXCEL spreadsheet is available for selecting resistor values for temperature compensation. See the Mindspeed website or contact your Mindspeed representative to obtain a copy of the M02042-3 Resistor Selection Utility. Alternatively, the table below can be used to select resistor values. Refer to Table 3-1 and choose the desired ILED at two different die temperatures to select appropriate R1/R2 values. Note: The tables are based on MC2042-3 junction temperatures (Tj), at 50 and 125C. The user must take into account the power dissipation and thermal resistance to arrive at the die temperature. Example, at Vcc=5v: Then R1=3300, R2= 270 ohms (shaded) is one possible solution. 25 85 C Iled 70 100 mA VLed 1.5 1.5 v Pstatic 50 50 mW Pdynamic (Vcc-VLed)*(70) = 245 350 mW Rt 100 100 C/Watt Tj Ta+24.5+5 = 54.5 85+35+5 = 125 C 02042-DSH-002-C Mindspeed TechnologiesTM Preliminary Information/Mindspeed Proprietary and Confidential Preliminary Information Ambient 9 Functional Description Table 3-1. Temperature Compensation Tables 1800 135.9 130.8 125 119.4 113.4 107.9 101.4 96.38 91.09 86.06 81.51 78.03 74.46 71.43 68.4 65.8 63.37 61.41 59.33 57.86 56.46 55.23 54.21 53.48 52.77 2200 131.4 126.1 120.1 114.3 108 102.4 95.68 90.41 84.92 79.68 74.94 71.3 67.58 64.41 61.24 58.52 55.97 53.91 51.72 50.18 48.7 47.42 46.34 45.57 44.82 2700 127.7 122.3 116.1 110.1 103.6 97.81 90.87 85.44 79.76 74.35 69.44 65.68 61.82 58.52 55.23 52.4 49.74 47.59 45.31 43.69 42.15 40.8 39.68 38.87 38.08 3300 124.7 119.2 112.9 106.7 100.1 94.14 87.04 81.47 75.64 70.08 65.04 61.17 57.19 53.79 50.4 47.47 44.72 42.5 40.12 38.45 36.84 35.44 34.27 33.42 32.61 3900 122.7 117.1 110.6 104.4 97.68 91.61 84.38 78.72 72.79 67.12 61.99 58.04 53.98 50.51 47.04 44.04 41.23 38.94 36.51 34.78 33.13 31.69 30.48 29.61 28.77 4700 120.8 115.1 108.6 102.2 95.4 89.24 81.9 76.14 70.12 64.36 59.13 55.11 50.97 47.43 43.88 40.82 37.94 35.6 33.1 31.33 29.63 28.15 26.9 26 25.13 5600 119.3 113.5 106.9 100.5 93.62 87.39 79.96 74.13 68.03 62.19 56.89 52.81 48.61 45.01 41.4 38.29 35.35 32.96 30.41 28.6 26.87 25.35 24.07 23.15 22.26 6800 117.9 112.1 105.4 98.92 91.98 85.68 78.17 72.28 66.1 60.19 54.82 50.69 46.43 42.78 39.12 35.95 32.96 30.53 27.93 26.08 24.31 22.75 21.44 20.5 19.58 8200 116.9 111 104.3 97.67 90.68 84.32 76.75 70.8 64.57 58.6 53.18 49 44.69 41 37.29 34.08 31.05 28.59 25.94 24.06 22.26 20.67 19.33 18.37 17.43 10000 115.9 110 103.2 96.58 89.54 83.14 75.51 69.51 63.23 57.21 51.74 47.52 43.18 39.45 35.7 32.45 29.38 26.88 24.2 22.29 20.46 18.84 17.48 16.5 15.54 12000 115.2 109.2 102.4 95.76 88.68 82.24 74.56 68.53 62.21 56.16 50.65 46.4 42.02 38.26 34.48 31.21 28.11 25.58 22.87 20.94 19.08 17.45 16.06 15.07 14.09 15000 114.5 108.5 101.6 94.93 87.81 81.34 73.62 67.56 61.2 55.11 49.56 45.28 40.87 37.08 33.27 29.97 26.84 24.29 21.55 19.59 17.71 16.05 14.65 13.63 12.64 18000 114 108 101.1 94.39 87.24 80.74 73 66.91 60.52 54.4 48.83 44.54 40.1 36.29 32.46 29.14 25.99 23.42 20.66 18.69 16.79 15.11 13.7 12.67 11.67 22000 113.6 107.5 100.6 93.89 86.72 80.2 72.42 66.31 59.91 53.77 48.17 43.86 39.41 35.58 31.73 28.38 25.22 22.63 19.85 17.87 15.95 14.26 12.83 11.79 10.78 27000 113.2 107.1 100.2 93.47 86.28 79.75 71.95 65.82 59.39 53.23 47.62 43.29 38.82 34.98 31.11 27.76 24.58 21.98 19.18 17.18 15.26 13.55 12.11 11.06 10.04 33000 112.9 106.8 99.92 93.14 85.93 79.38 71.57 65.43 58.98 52.81 47.18 42.84 38.36 34.5 30.62 27.25 24.06 21.45 18.64 16.63 14.7 12.98 11.53 10.48 9.448 39000 112.7 106.6 99.7 92.91 85.69 79.13 71.31 65.15 58.7 52.51 46.88 42.53 38.04 34.17 30.28 26.91 23.71 21.09 18.27 16.25 14.31 12.59 11.13 10.07 9.036 47000 112.5 106.4 99.49 92.7 85.47 78.9 71.06 64.9 58.44 52.24 46.59 42.23 37.74 33.86 29.97 26.58 23.37 20.75 17.92 15.9 13.95 12.22 10.76 9.692 8.65 Tj=125 47 56 68 82 100 120 150 180 220 270 330 390 470 560 680 820 1000 1200 1500 1800 2200 2700 3300 3900 4700 1800 182.3 179.2 174.6 168.8 161.1 152.8 141.9 133 123.4 114.2 105.9 99.6 93.2 87.79 82.43 77.87 73.63 70.22 66.63 64.11 61.72 59.65 57.93 56.7 55.52 2200 181.2 177.7 172.5 166 157.4 148.4 137 127.6 117.7 108.2 99.67 93.2 86.63 81.06 75.55 70.85 66.47 62.95 59.23 56.62 54.15 52 50.21 48.93 47.7 2700 180.2 176.3 170.6 163.4 154.1 144.6 132.7 123.1 112.8 103.1 94.44 87.83 81.11 75.41 69.76 64.93 60.43 56.81 52.97 50.28 47.73 45.5 43.65 42.33 41.05 3300 179.3 175.1 168.9 161.2 151.3 141.6 129.3 119.3 108.9 99.07 90.24 83.52 76.67 70.86 65.09 60.15 55.55 51.84 47.91 45.15 42.52 40.23 38.32 36.96 35.64 3900 178.7 174.3 167.7 159.6 149.4 139.4 126.8 116.7 106.2 96.26 87.32 80.51 73.58 67.69 61.83 56.83 52.15 48.37 44.37 41.55 38.87 36.53 34.58 33.18 31.84 4700 178.1 173.4 166.5 158.1 147.5 137.3 124.5 114.3 103.7 93.61 84.58 77.69 70.67 64.71 58.77 53.69 48.94 45.1 41.03 38.16 35.42 33.03 31.04 29.61 28.23 5600 177.6 172.7 165.5 156.9 146.1 135.7 122.7 112.4 101.7 91.54 82.43 75.48 68.39 62.36 56.36 51.22 46.41 42.52 38.39 35.48 32.7 30.27 28.24 26.78 25.37 6800 177.1 172 164.6 155.7 144.7 134.2 121 110.6 99.84 89.62 80.44 73.43 66.28 60.19 54.14 48.94 44.07 40.14 35.95 32.99 30.17 27.7 25.63 24.15 22.71 8200 176.7 171.5 163.9 154.7 143.6 132.9 119.7 109.2 98.37 88.09 78.85 71.8 64.59 58.46 52.36 47.12 42.2 38.23 33.99 31 28.14 25.64 23.54 22.03 20.57 10000 176.3 171 163.2 153.9 142.6 131.9 118.5 108 97.08 86.75 77.46 70.36 63.12 56.95 50.8 45.52 40.56 36.55 32.27 29.25 26.36 23.82 21.7 20.17 18.68 12000 176.1 170.6 162.7 153.2 141.9 131.1 117.6 107.1 96.11 85.74 76.41 69.28 61.99 55.79 49.61 44.3 39.31 35.27 30.97 27.92 25 22.44 20.29 18.74 17.24 15000 175.8 170.3 162.2 152.6 141.2 130.2 116.7 106.1 95.13 84.72 75.35 68.19 60.87 54.64 48.42 43.08 38.06 33.99 29.65 26.58 23.63 21.05 18.87 17.31 15.79 18000 175.6 170 161.9 152.1 140.7 129.7 116.1 105.5 94.48 84.04 74.64 67.46 60.12 53.87 47.63 42.26 37.22 33.14 28.77 25.68 22.72 20.11 17.93 16.35 14.81 22000 175.4 169.8 161.6 151.7 140.2 129.2 115.6 104.9 93.89 83.42 74 66.8 59.44 53.17 46.91 41.52 36.46 32.36 27.97 24.87 21.89 19.27 17.06 15.47 13.93 27000 175.3 169.6 161.3 151.4 139.8 128.8 115.1 104.5 93.39 82.91 73.47 66.25 58.87 52.58 46.31 40.9 35.83 31.71 27.31 24.19 21.19 18.56 16.34 14.74 13.18 33000 175.2 169.4 161.1 151.1 139.5 128.4 114.8 104.1 93 82.49 73.04 65.81 58.42 52.11 45.82 40.41 35.32 31.19 26.77 23.64 20.63 17.99 15.76 14.15 12.59 39000 175.1 169.3 160.9 150.9 139.3 128.2 114.5 103.8 92.72 82.21 72.74 65.5 58.1 51.79 45.49 40.07 34.97 30.83 26.4 23.26 20.25 17.59 15.36 13.74 12.17 47000 175 169.2 160.8 150.8 139.1 128 114.3 103.6 92.47 81.94 72.46 65.22 57.8 51.49 45.18 39.74 34.64 30.49 26.05 22.91 19.88 17.22 14.98 13.36 11.78 02042-DSH-002-C Mindspeed TechnologiesTM Preliminary Information/Mindspeed Proprietary and Confidential 10 Preliminary Information Tj=50 47 56 68 82 100 120 150 180 220 270 330 390 470 560 680 820 1000 1200 1500 1800 2200 2700 3300 3900 4700 4.0 Applications Information 4.1 Typical Applications Circuit Figure 4-1. Typical Applications Circuit VCC LED Dummy LED Load Optional Peaking R4 C1 VDD1 DIN DIN VDD2 IOUT IOUT PEAK Input Data Pulse Shaping Current Switch and Peaking Control VREF Generator Programmable Current Sink PWA PWA VREF GND GND2 RTSET R2 RTSET2 R1 02042-DSH-002-C Mindspeed TechnologiesTM 11 02042-DSH-002-C Mindspeed TechnologiesTM A B C 1 1 1 0V HD1 3.3V 1 2 3 POWER SK5 DATA_INB SK4 DATA_IN DATA INPUTS SK6 DATA_CMOS 2 1 + C10 10UF EXCCL3216U L2 R5 50R C7 100NF VCC1 R14 N/C R13 N/C VCC1 C9 100NF VCC2 C11 10NF R6 50R 100NF R8 N/C VCC1 EXCCL3216U L1 C5 C6 100NF N/C R9 C12 10NF R16 N/C R15 N/C R17 50K R10 1K R19 50K R7 10K R18 50K 2 3 C1 10NF VCC1 VBB 10 9 8 7 6 5 4 3 2 1 N/C N/C VDD2 VDD2 PEAK IOUT IOUT IOUTB GND GND 11 12 13 14 15 16 17 18 19 20 3 TITLE MICROCOSM MC2042-3 N/C VDD1 RTSET RTSET2 VBB DIN- DIN+ PWA+ PWA- N/C IC1 These pots can be altered to give a total of +/- 500 pS Pulse width adjustment. No adjustment occurs if PWA + & PWA- are tied to gnd. Maximum adjustment in either direction is obtained by connecting PWA+ to VCC and PWA- to gnd , or viceversa. Controls -------------Pulse width adjust - R17/R18 General ------------The board allows the user full flexibility for determining the resistor valuesrequired for the pulse width adjust, LED current and LED temperature compensation functions. This board is provided for evaluation of the MC2042-3 SET NOMINAL LED DRIVE CURRENT SET LED TEMP COMP R12 N/C R11 N/C LED PULSE WIDTH ADJUST VCC1 2 0R R1 R2 R3 R4 C2 10NF N/C N/C 22R VCC2 18PF C4 C8 100NF VCC2 SK3 SK2 SK1 4 SHEET OF 1 1 REV 1 DOC_NO MC2042 CAN_GND CATHODE ANODE LED INTERFACE MC2042-3 EVALUATION BOARD C3 10NF Inputs ----------SK4 & SK5 are provided for the connection of differential PECL input signals. Alternatively a CMOS input may be connected to SK6.If using SK6, remove R6, C5 & C6 and fit R8 & R9 with 1K resistors. The drive current and temperature compensation is determined by two potentiometers , R19 & R7 respectively .LED turn-on time can be improved by proper selection of R2, R3 & C4. Refer to Microcosm documentation for selection of these values. LED drive current & temp compensation - R19 & R7 4 A B C D Figure 4-2. 2 4.2 2 D 1 Applications Information Evaluation Board An electrical evaluation board is available for the MC2042-3. The schematic is shown below. Evaluation Board 12 5.0 Package Specification Figure 5-1. TSSOP20 Package Information Note: This package is available in conventional, lead-free and RoHS-compliant versions. Consult the Mindspeed.com web site for current information. 02042-DSH-002-C Mindspeed TechnologiesTM Preliminary Information/Mindspeed Proprietary and Confidential 13 Package Specification Figure 5-2. QSOP16 Package Information Table 5-1. TSSOP20 Dimensions Dims. Tols/leads TSSOP20L A MAX 1.20 A1 0.5MIN/.10MAX. A2 NOM .90 D .05 6.50 E .10 6.40 E1 .10 4.40 L +.15/-.10 .60 L1 REF. 1.00 Zp REF. .325 e BASIC .65 b .05 .22 c 02042-DSH-002-C .13MIN/.20MAX e 4 4 aaa MAX. .10 bbb MAX. .10 ccc MAX .05 ddd MAX. .20 Mindspeed TechnologiesTM Preliminary Information/Mindspeed Proprietary and Confidential 14 Package Specification Table 5-2. 02042-DSH-002-C QSOP16 Dimensions Dims. Tols/N QSOP16 A MAX. 1.60 A1 .05 0.1 A2 .10 1.40 D .10 4.9 E .20 6.00 E1 .10 3.90 L .05 0.6 ccc MAX. 0.10 ddd MAX. 0.10 e BASIC 0.65 b .05 0.25 c .05 .2 Min. .24 Max. R .05 0.20 R1 Min. 0.20 Mindspeed TechnologiesTM Preliminary Information/Mindspeed Proprietary and Confidential 15 Information in this document is provided in connection with Mindspeed TechnologiesTM ("MindspeedTM") products. These materials are provided by Mindspeed as a service to its customers and may be used for informational purposes only. Except as provided in Mindspeed's Terms and Conditions of Sale for such products or in any separate agreement related to this document, Mindspeed assumes no liability whatsoever. Mindspeed assumes no responsibility for errors or omissions in these materials. Mindspeed may make changes to specifications and product descriptions at any time, without notice. Mindspeed 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 MINDSPEED PRODUCTS INCLUDING LIABILITY OR WARRANTIES RELATING TO FITNESS FOR A PARTICULAR PURPOSE, CONSEQUENTIAL OR INCIDENTAL DAMAGES, MERCHANTABILITY, OR INFRINGEMENT OF ANY PATENT, COPYRIGHT OR OTHER INTELLECTUAL PROPERTY RIGHT. MINDSPEED FURTHER DOES NOT WARRANT THE ACCURACY OR COMPLETENESS OF THE INFORMATION, TEXT, GRAPHICS OR OTHER ITEMS CONTAINED WITHIN THESE MATERIALS. MINDSPEED SHALL NOT BE LIABLE FOR ANY SPECIAL, INDIRECT, INCIDENTAL, OR CONSEQUENTIAL DAMAGES, INCLUDING WITHOUT LIMITATION, LOST REVENUES OR LOST PROFITS, WHICH MAY RESULT FROM THE USE OF THESE MATERIALS. Mindspeed products are not intended for use in medical, lifesaving or life sustaining applications. Mindspeed customers using or selling Mindspeed products for use in such applications do so at their own risk and agree to fully indemnify Mindspeed for any damages resulting from such improper use or sale. 02042-DSH-002-C Mindspeed TechnologiesTM Preliminary Information/Mindspeed Proprietary and Confidential 16 Preliminary Information (c) 2005, Mindspeed TechnologiesTM, Inc. All rights reserved. www.mindspeed.com General Information: U.S. and Canada: (800) 854-8099 International: (949) 483-6996 Headquarters - Newport Beach 4000 MacArthur Blvd., East Tower Newport Beach, CA. 92660 Preliminary Information 02042-DSH-002-C Mindspeed TechnologiesTM Preliminary Information/Mindspeed Proprietary and Confidential 17