ZLK38000 Evaluation Kit User Guide Evaluation Kit Part Number: ZLK38000BADA Document Revision Number: 1.0 Issue Date: June 2015 Document Number: 152457 Powered by AcuEdgeTM Technology Firmware ZLK38000 User Guide Table of Contents 1.0 Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 1.1 ZLK38000BADA Evaluation Kit Contents . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 1.2 ZLE38000 Evaluation Board Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 1.3 MiTunerTM Lite GUI Software (ZLS38508LITE) Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 1.4 Full MiTunerTM GUI Software (ZLS38508) with Auto Tuning Support Features . . . . . . . . . . . . . . . . . . . . . 4 1.5 References . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 2.0 Getting Acquainted . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 3.0 Hardware Connections and Operation. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 3.1 Microphones . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7 3.2 Speakers and Class D Amplifiers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8 3.3 TRRS Headset Jack . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 3.3.1 TRRS Cell Phone Adapter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 3.4 Control Interfaces . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 3.5 Bootstrap . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 3.6 Power . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 3.7 AIB Connection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11 3.8 Reset . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11 4.0 Evaluation Board Schematic . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12 4.1 Evaluation Board BOM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22 2 Microsemi Corporation Confidential and Proprietary ZLK38000 1.0 User Guide Introduction The ZLK38000 Evaluation Kit includes all the hardware necessary to operate the ZLE38000 Evaluation Board. The Evaluation Board provides a flexible platform to evaluate a Timberwolf Audio Processor device with AcuEdgeTM Technology Firmware. The ZLE38000 Evaluation Board provides a simple analog interface that can be connected to microphones and speakers to allow for subjective testing. The miniature size allows for easy mounting in an existing plastic enclosure. Firmware Code for the desired Timberwolf device and a Configuration Record for the desired demonstration platform can be downloaded into the Evaluation Board using the ZLS38000 Firmware Loader software. The ZLE38000 Evaluation Board can then be controlled using the MiTunerTM GUI Lite Software (ZLS38508LITE) or the full MiTuner GUI Software package (ZLS38508). Microsemi has developed automatic tuning capability into the full MiTuner GUI Software to further facilitate and shorten the design process. The ZLS38508 Software package consists of the MiTuner GUI Software and the Audio Interface Box (AIB) Evaluation Kit (ZLE38470BADA) hardware, together performing automatic tuning of the Timberwolf Audio Processor on the Evaluation Board or in a system design. Figure 1 - ZLE38000 Evaluation Board 1.1 ZLK38000BADA Evaluation Kit Contents * ZLE38000 Evaluation Board * ZLS38000 Firmware Loader Software * Serial USB to Mini USB Cable * Headset (32 ), with microphone/headphone splitter adapter * 25 foot Headset Extension Cable * Speaker (un-powered, 4 , 2.5 W) 3 Microsemi Corporation Confidential and Proprietary ZLK38000 1.2 * User Guide ZLE38000 Evaluation Board Features Miniature size * Easily mounted into existing plastic enclosures * Economical means to evaluate the functionality of the Timberwolf hardware and echo canceller firmware * USB or SPI serial port control * MiTunerTM Lite GUI software, a Windows based software application * Complete access to all features and registers of both the hardware and firmware * Flexible analog interfaces, accommodating multiple devices and connections * Multiple digital interfaces 1.3 MiTunerTM Lite GUI Software (ZLS38508LITE) Features MiTuner Lite GUI Software provides the audio engineer with a comprehensive interface into the Microsemi AcuEdgeTM Technology Firmware running on the Audio Processor. The GUI is designed to interface with the Timberwolf device whether residing on the ZLE38000 Evaluation Board or on a customer-designed platform, when properly connected to the Timberwolf communication pins. The MiTuner Lite GUI Software provides: * Control of all functional blocks, e.g., AEC block, Double-Talk Detector, etc. * Gain and equalizer control * Read/write access to all registers * Portal for firmware updates * Configuration Record manipulation 1.4 Full MiTunerTM GUI Software (ZLS38508) with Auto Tuning Support Features * Available for purchase from http://sds.microsemi.com * Includes all features of the MiTuner Lite GUI * Also includes hardware for automatic tuning: * Microsemi Audio Interface Box (AIB) * Powered portable speaker (for the "mouth" speaker) * Behringer microphone (for the "ear" microphone) 1.5 References Please refer to the appropriate Timberwolf Digital Signal Processor family, powered by AcuEdgeTM Technology Data Sheet and Firmware Manual for the device code downloaded into the ZLE38000 Evaluation Board. The MiTunerTM Lite Software User Guide is included in the ZLS38508LITE software installation. The MiTunerTM Software User Guide and the ZLE38470 Audio Interface Box (AIB) Evaluation Kit Automatic Tuning Guide are provided with the full MiTunerTM GUI Software (ZLS38508). 4 Microsemi Corporation Confidential and Proprietary ZLK38000 2.0 User Guide Getting Acquainted Figure 2 highlights the connection interfaces on the ZLE38000 Evaluation Board. The board measures 97 mm (3.9 inches) by 47.8 mm (1.88 inches). Note: As with any circuit board, use an anti-static grounded wrist strap when handling the Evaluation Board. Analog Analog MIC1 MIC2 Reset Raspberry Pi AIB Header TRRS Headset I2S Port USB LED UART Debug DAC1 Spkr1 USB DAC2 Spkr2 Digital MIC3 Digital MIC4 Digital MIC & Spkr Access Digital MIC2 Power Digital DAC LEDs MIC1 Jumpers Figure 2 - ZLE38000 Evaluation Board Interfaces The Evaluation Board features the following hardware and interfaces: * 2 analog microphone jacks * 1 TRRS headset jack * 2 speaker output jacks * 3 digital microphones (Note, not all Timberwolf devices can accommodate 3 microphones) * A digital microphone and speaker access header * USB receptacle * Power and USB activity indicators * Audio Interface Box (AIB) header * I2S port B header * DAC or Class D amplifier output jumpers * Hardware reset button * Raspberry Pi connector (not shown above) Use the ZLS38000 Firmware Loader software to download the desired Timberwolf device firmware and to install the desired demonstration platform into the Configuration Record. 5 Microsemi Corporation Confidential and Proprietary ZLK38000 3.0 User Guide Hardware Connections and Operation Figure 3 shows a functional and connection block diagram of the Evaluation Board. User interfaces are colored gray. Note that not all connectors and jumpers are populated. A full schematic for the Evaluation Board is provided in Section 4.0. . JM4 Digital MIC4 ZLE38000 Evaluation Board JM3 Digital MIC3 J1 JM2 USB to UART AIB Conn Digital MIC2 JAIB1 JM1 UART Digital MIC1 P4 TDM/I2SA Digital Mic 2 I2SB Conn P6 Diff Amp ECM Preamp Digital Mic 1 Digital Mic CLK P5 Analog MIC1 Diff Amp ZLE38000 DVDD33/ AVDD33 GPIO (8) TRRS Headset 3.3 or 5V P9 Spkr2 J4 Class D DAC2_P DAC2 DAC2_M J5 P8 J2 Spkr1 Class D 3.3V to all ICs GPIO GPIO (4) Bootstrap XO/XI Crystal RESET Master SPI SW1 Reset Flash DAC1_M 3.3 or 5V Figure 3 - ZLE38000 Evaluation Board Block Diagram 6 Microsemi Corporation Confidential and Proprietary 3.3V Conv 5V DAC1_P DAC1 J3 P3 1.2V Conv 1.2V DMIC_CLK 1.2V Conv P7 JPCM1 SPI Slave DMIC_IN1 ECM Preamp I2SA Conn Mux DMIC_IN2 Analog MIC2 USB JDEBUG1 Debug Conn Pi Conn ZLK38000 3.1 User Guide Microphones The Evaluation Board provides hardware connections for 2 analog microphones and 4 digital microphones. The default setting of the hardware connects the 4 digital microphones to the ZLE38000 device. Note, not all Timberwolf devices can process 4 digital microphones. The digital microphones supplied with the Evaluation Board are mounted on a small daughter card that plugs into the digital microphone headers. Various digital microphone part numbers can be mounted on this card. Make sure power is removed when inserting/removing digital microphone cards. On the ZLE38000 board microphone detection is built into the analog microphone jacks. If an analog microphone jack is plugged into P5 (Analog MIC 1), digital microphone 1 will be disconnected and analog microphone 1 will be connected to DMIC_IN1. Likewise, if an analog microphone jack is plugged into P6 (Analog MIC 2), digital microphone 2 will be disconnected and analog microphone 2 will be connected to DMIC_IN1. If an analog microphone jack is plugged into P7 (Headset), digital microphone 1 will be disconnected and the headset microphone (TRRS pin 1, see Figure 4) will be connected to DMIC_IN1. Analog MIC1 and the headset inputs are mutually exclusive, use one or the other. The analog microphone inputs are wired to differential amplifiers which convert the microphone signal to single-ended. The microphone signals are then amplified and digitized through the digital electret microphone preamplifiers and applied to the ZLE38000 digital microphone input 1. The headset input is wired to the digital electret microphone preamplifier and applied to the ZLE38000 digital microphone input 1. Digital microphones 3 and 4 are always connected to DMIC_IN2. Digital microphone inputs and the digital microphone clock can be accessed via the JMARRY1 header, not shown in Figure 3, refer to the schematic for pin designations. Use this header for hard wiring of external microphones. By default the Evaluation Board provides microphone biasing on the analog microphone inputs. This biasing can be removed if not necessary, refer to the schematic for bias component values and identification. Left and right microphone selection is hard-wired on the Evaluation Board. 7 Microsemi Corporation Confidential and Proprietary ZLK38000 3.2 User Guide Speakers and Class D Amplifiers The ZLE38000 device has two differential DAC outputs which can drive 4 single-ended or 2 differential outputs. The DAC outputs can be accessed directly or the Evaluation Board audio power Class D amplifiers can be used to drive two speakers differentially. To wire directly to the DAC outputs, the DAC jumpers should be horizontal, as shown in Figure 2. J2 and J3 connect to DAC1 and J4 and J5 connect to DAC2 with polarity as shown in Figure 3. To use the Class D amplifiers, move the jumpers to a vertical position (as shown in Figure 8) and verify that the amplifiers are enabled. When the Class D amplifiers are enabled a caution sign appears on the Diagram window (as seen in Figure 5). To enable or disable the Class D amplifiers, select the GPIO Configuration button from the Diagram window. The Class D amplifier on speaker jack 1 is controlled by GPIO_12; the Class D amplifier on speaker jack 2 is controlled by GPIO_13. An amplifier is enabled when the respective GPIO is set high. A headset should not be used with the green speaker jacks when the Class D amplifiers are enabled due to the potential of very loud volume on the green speaker jacks. The class D audio power amplifiers can be powered from +3.3 V or +5 V. The default setting is +5 V which can drive 2.1 W into a 4 speaker or 1.4 W into an 8 speaker with low distortion. The speaker supplied with the Evaluation Kit is rated for 2.5 W. The class D audio power amplifiers when powered with +3.3 V can drive 0.75 W into a 4 speaker or 0.5 W into an 8 speaker with low distortion. To change the amplifier power to +3.3 V, move the 0 resistor from the horizontal R5V1 position to the vertical R3V1 position. The 0 resistor is located to the right of the Digital MIC 2 header. The Class D amplifier is configured for a gain of +18 dB. Amplifier gain is set by the input resistance value. Note: If using powered speakers with the Evaluation Board, make sure the speakers are floating. This will prevent potential noise from a ground loop when the Evaluation Board is wired to the PC ground through the USB connection. Or, if the Evaluation Board is wired into a system, the Evaluation Board can be powered from a floating wall adapter power supply to prevent ground loops. 8 Microsemi Corporation Confidential and Proprietary ZLK38000 3.3 User Guide TRRS Headset Jack The headset left and right speakers (TRRS pins 2 & 3) are wired to the DAC1 positive output. The speakers can be split out to DAC1 and DAC2 via a resistor option. Move the 0 RPOP2 resistor to the RPOP1 position. This resistor is on the back of the board underneath the TRRS headset jack. The pinout of the headset jack is shown in Figure 4. 4 2 5 6 3 1 Figure 4 - TRRS Headset Footprint (Bottom View) and Pinout 3.3.1 TRRS Cell Phone Adapter To interface a cell phone to the ZLE38000 Evaluation Board, a TRRS Cell Phone Adapter board is required. This board swaps transmit and receive signals and provides a microphone load to satisfy the cell phone plug-in test. This board can be requested from Microsemi. P1 plugs into the ZLE38000 Evaluation Board TRRS jack. Use a 3-pin, 3.5 mm stereo male-male cable from the cell phone audio output to J1 of the TRRS Cell Phone Adapter board. Figure 5 - TRRS Cell Phone Adapter Board 9 Microsemi Corporation Confidential and Proprietary ZLK38000 3.4 User Guide Control Interfaces The ZLE38000 device is controlled either by a PC through the USB interface or through a Raspberry Pi controller wired to connector P3. For PC use, plug a USB cable terminated in a USB mini connector to J1. The 5V and 3V3 LEDs will illuminate and the USB LED (DX1) will illuminate when transmitting or receiving data from the USB. This connection appears as a serial link between the PC and the Evaluation Board allowing the GUI software to directly access the ZLE38000 device through its UART port. The Raspberry Pi controls the ZLE38000 device through the SPI Slave of the Host Bus Interface (connector P3), and streams audio via the I2S TDM-A audio bus (connector P4). The multiplexer between P4 and the ZLE38000 device defaults to I2S signalling from the Raspberry Pi. This signal path is only broken when an AIB box is connected to the AIB connector. AIB use is discussed in the ZLE38470 Audio Interface Box (AIB) Evaluation Kit Automatic Tuning Guide document. The ZLE38000 Evaluation Board can be powered by the Raspberry Pi +5 V supply. Refer to page 21 of this document for the pin-out of the Raspberry Pi connectors. I2S Port B signals are made available on the small header just to the left of the ZLE38000 device, as are UART signals on the JDEBUG1 via header. 3.5 Bootstrap The Evaluation Board bootstrap resistors are configured for crystal operation and external flash use. 3.6 Power The Evaluation Board is powered by +5 V which is supplied either from the PC through the USB interface or by the Raspberry Pi controller. The Evaluation Board can also be powered by a floating +5 V wall adapter power supply, in lieu of the USB connection, when the ZLE38000 device is operating off of Flash. The Evaluation Board converts the +5 V input to +3.3 V for use by the board's circuitry. The board also has a +3.3 V to +1.2 V converter which is used to power the ZLE38000 device's core supply. Alternatively, the ZLE38000 device has a built-in converter for generating the +1.2 V ZLE38000 core supply. To use the built-in converter, two resistors need to be moved. Move the 0 R200 resistor to the R201 position. This resistor is on the top of the board underneath the ZLE38000 device (Figure 6). And move the 0 R202 resistor to the R203 position. This resistor is on the bottom of the board to the left of the ZLE38000 via square (Figure 7). The Power LEDs illuminate when +5 V and +3.3 V voltages are present. 10 Microsemi Corporation Confidential and Proprietary ZLK38000 User Guide Figure 6 - R200/R201 Placement - Shown Configured for External +1.2 V Converter Figure 7 - R202/R203 Placement - Shown Configured for External +1.2 V Converter 3.7 AIB Connection A 10-pin header is provided in order to connect the AIB box to the ZLE38000 Evaluation Board. Refer to the ZLE38470 Audio Interface Box (AIB) Evaluation Kit Automatic Tuning Guide for details on connection and software operation. When a cable from the AIB is present, the USB port on the ZLE38000 is disabled. 3.8 Reset A hardware reset can be performed by pressing the Reset button SW1. 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'B0,& $B0,& '*1' & Q) 9 6(16( 6 8 1/$6%')7* % % '*1' B9 9 8 1/$6%')7* $*1''*1' $*1''*1' 63 $PS,Q $PS,Q '*1' 9 B9 9 '0,& 9&& 9 '*1' 5 . $03 $03 '*1' 5 . $03 $03 $PS,Q '*1' 6' *1' 93 ,13 ,10 '*1' '*1' '*1' $03287L $03287L Q) X) 8 (3$' 1&3 93 2873 2870 & '*1' $03287 $03287 Q) X) 8 (3$' 1&3 93 2873 2870 & & B9 $PS,Q $PS,Q '*1' 6' *1' 93 ,13 ,10 '*1' -0 664)' 5LJKWB&+ 'B0,& 9 '*1' -0 664)' /HIWB&+ 'B0,& 9 '*1' 9 - - - - '*1' 5 . -0 '*1' 664)' 5LJKWB&+ 'B0,& 9 '*1' -0 664)' /HIWB&+ 'B0,& 5 . 9 & B9 $PS,Q (&0B&/. '0,& (&0B&/. (&0B&/. (&0B&/. / 5 . 2KP / 2KP / 2KP '13 287 '*1' 3 63($.(5 2KP 5323 3 63($.(5 $03B6( 287 287 %,$6 0'$7$ 0,& 9 & X) PP-DFN *UHHQ6SNU $PS,Q 3B7556 5 . (&0B&/. 9 8 '*1' $*1' $*1' 5 0HJ 5 . 9287 966 9'' 9 $*1' 9,1 9,1 0&3 8 $*1' 5 & Q) 5 . 3 3 $*1' 'DWH 6L]H % 7LWOH :HGQHVGD\-XQH =/(,QSXW$03 'RFXPHQW1XPEHU 0LFURSKRQH$PS 287 287 'B0,& 'B0,& 6 6 'LJLWDO0LF 'LJLWDO0LF -'0,& -'0,& 6KHHW =/( RI 3&% 'HVLJQHU :3( 'LJLWDO0LF 'LJLWDO0LF -'0,& -'0,& 3ODFH'LJLWDO0LF VDVIROORZV '0,&RQ-0 '0,&RQ-0 '0,&RQ-0 '0,&RQ-0 6 6 3ODFH6KXQWVDVIROORZV -3LQV -3LQV -3LQV -3LQV 5HDGLQJ3D 0LFURVHPL3URSULHWDU\'RFXPHQW 6XLWH' 0LFURVHPL33& 1RUWKWK6W '*1' 9 PP-DFN 7556-$&. $1$/2*0,&B,1 $8',2287 &+$11(/ -0$55< PP-DFN 3LQN0LF 76:/' 5HPRYH3LQ 287 287 & X) 9 PP-DFN 3LQN0LF $1$/2*0,&B,1 $1$/2*0,&B,1 0,&B7556 3 'B0,& 'B0,& (&0&/. 9 3B7556 7556B3' $PS,Q 0,&B/ 0,&B+ 38//B83 6(16( 5 . 0,&B/ 0,&B+ 38//B83 6(16(B756 5 . $*1' '*1' 9 $*1' 9 9 &. 56, < *1' 1&6= 9&& '*1' 2( $ 9 5 . 6(16(B756 5 . $*1' 9 0,& $*1' 6(16(B7556 0,& $*1' 0,& %,$6 %,$6 0,& 4XLHW0LFURSKRQH9ROWDJH6RXUFHV 9 & Q) '*1' 9 $0,& '*1' 9 '$7$ &/. /5 $0,& '*1' 8 9 $0,& '*1' 9 /5 '$7$ &/. 1&6 '*1' $0,& '*1' & Q) '*1' 9 6(16( 9 (&0B&/. /$ '*1' 9 5$ $B0,& (&0B&/. 5 . $*1' 6(16(B7556 0,&B7556 9 PP-DFN *UHHQ6SNU $*1' 6(16(B7556 9 '$7$ &/. 6(B$03 287 '*1' $B0,& 5323 2KP / 2KP 9 5 . 9 5HY 5HY $ % & ' ZLK38000 User Guide 16 Microsemi Corporation Confidential and Proprietary $ % & ' '$7$ & Q) $*1' '*1' %,$6 9 '*1' 9 $ % 9 '*1' 6 8 *1' 1/$6%')7* % $*1' '*1' 9 &/. 6(16(B7556 0'$7$ '$7$ &/. /5 '*1' 5 . '*1' *1' 7556B0,& 9'' 9&& 9 9 '*1' -%7&%$6 ,1 8 & X) 9 9 $*1' 5 . & & Q) & X) Q) 5 5 . $*1' 9 0,& 6LQJOH(QGHG0LFURSKRQH =/(,QSXW$036(B$03 'RFXPHQW1XPEHU :HGQHVGD\-XQH 7LWOH 6L]H % 'DWH 6KHHW =/( 5HDGLQJ3D 0LFURVHPL3URSULHWDU\'RFXPHQW 6XLWH' 0LFURVHPL33& 1RUWKWK6W RI 3&% 'HVLJQHU :3( 5HY 5HY $ % & ' ZLK38000 User Guide 17 Microsemi Corporation Confidential and Proprietary $ % & ' $*1' '*1' %,$6 9 $*1' 9 '$7$ &/. /5 '*1' 9 '$7$ &/. /5 '*1' *1' 9'' 9 '*1' 9 5 . & & Q) $*1' -%7&%$6 ,1 8 & X) 9 Q) 966 9'' 8 . 0&3 9,1 9,1 $*1' 9287 5 9 5 . 5 5 5 . $*1' 9 5 5 & Q) $*1' & Q) & Q) $*1' . . & X) 9 $*1' 9 . . & & X) X) $*1' 5 0,& 0,& :HGQHVGD\-XQH 6L]H % 'DWH $QDORJB0LFURSKRQH =/(,QSXW$03$0,& 'RFXPHQW1XPEHU 7LWOH 6KHHW =/( 5HDGLQJ3D 0LFURVHPL3URSULHWDU\'RFXPHQW 6XLWH' & X) 5 . $*1' 0LFURVHPL33& 1RUWKWK6W 5 9 RI 3&% 'HVLJQHU :3( 5HY 5HY $ % & ' ZLK38000 User Guide 18 Microsemi Corporation Confidential and Proprietary $ % & ' $*1' '*1' %,$6 9 $*1' 9 '$7$ &/. /5 '*1' 9 '$7$ &/. /5 '*1' *1' 9'' 9 '*1' 9 5 . & & Q) $*1' -%7&%$6 ,1 8 & X) 9 Q) 966 9'' 8 . 0&3 9,1 9,1 $*1' 9287 5 9 5 . 5 5 5 . $*1' 9 5 5 & Q) $*1' & Q) & Q) $*1' . . & X) 9 $*1' 9 . . & & X) X) $*1' 5 0,& 0,& :HGQHVGD\-XQH 6L]H % 'DWH $QDORJB0LFURSKRQH =/(,QSXW$03$0,& 'RFXPHQW1XPEHU 7LWOH 6KHHW =/( 5HDGLQJ3D 0LFURVHPL3URSULHWDU\'RFXPHQW 6XLWH' & X) 5 . $*1' 0LFURVHPL33& 1RUWKWK6W 5 9 RI 3&% 'HVLJQHU :3( 5HY 5HY $ % & ' ZLK38000 User Guide 19 Microsemi Corporation Confidential and Proprietary $ % & ' '*1' ,' *1' ' ' 9%86 '0 '3 '*1' 86%B0LQLB% * * * * - 586% '13 586% '13 '*1' &86% Q) '0 '*1' &86% S) 586% 586% '*1' &86% Q) &86% Q) 986% '*1' 9287 86%'0 86%'3 &86% Q) '*1' '3 &+ 91 8 3$&'165 93 986% '*1' &+ &86% X) '*1' 986% &86% S) '3 '0 2KP / *1' '*1' 9&& 9&&,2 9287 '0 '3 '*1' 7;' 5;' 576 &76 567 5 '*1' &%86 (3$' 8 )7;' 986% 86%%863RZHUHG,QWHUIDFH 7;' 5;' 2KP *UHHQ 9287 8$57B1567 5 '; :HGQHVGD\-XQH 6L]H % 'DWH 86%,QWHUIDFH 86%,QWHUIDFH 'RFXPHQW1XPEHU 7LWOH 6KHHW =/( 5HDGLQJ3D 0LFURVHPL3URSULHWDU\'RFXPHQW 6XLWH' 0LFURVHPL33& 1RUWKWK6W RI 3&% 'HVLJQHU :3( 5HY 5HY $ % & ' ZLK38000 User Guide 20 Microsemi Corporation Confidential and Proprietary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ser Guide 21 Microsemi Corporation Confidential and Proprietary $ % & ' ,&B6'$ ,&B6&/ 3,B*3,2B & Q) 63,B026, 63,B0,62 63,B6&/. '*1' 63, 3,B*3,2B 3,B*3,2B 3,B*3,2B ,& 8 '*1' 9 5 . 9 *3,2B *3,2B *3,2B *3,2B *3,2B *3,2B 9&& 6'$ 6&/ :3 966 /&$7 9 026, 0,62 6&/. 6'$ 6&/ 6'$ 6&/ *3,2 5 . '*1' 9 0RXQWRQ%RWWRP 664*' 3 '*1' 9 '*1' *3,2B *3,2B *3,2B *3,2B *3,2B *3,2B *3,2B *3,2B 9 15(6(7 1&( 1&( 7;' 5;' 3,B*3,2B 63,B1&6 63,B1&6 3,B*3,2B 3,B*3,2B 7;' 5;' 3,B*3,2B 63, 8$57 3&0B)6 3&0B'287 3 ,6+HDGHU 664*' 0RXQWRQ%RWWRP '*1' *3,2B *3,2B 9 3&0B&/. 3&0B',1 :HGQHVGD\-XQH 6L]H % 'DWH 5DVSEHUU\3L 5DVSEHUU\B3L 'RFXPHQW1XPEHU 7LWOH 6KHHW =/( 5HDGLQJ3D 0LFURVHPL3URSULHWDU\'RFXPHQW 6XLWH' 0LFURVHPL33& 1RUWKWK6W 3&0B287LV,6B6',$ 3&0B',1LV,6B6'2$ '*1' *3,2B *3,2B 9 RI 3&% 'HVLJQHU :3( 5HY 5HY $ % & ' ZLK38000 User Guide MicrosemiPPC 2136North13thSt SuiteD Reading,Pa19604 Doc=152342 PCBRev=Rev1 PCB=PCB0004 RevCode=101 OPN=ZLE38000 Title=EvaluationBoardfortheZLE38000Device Item Quantity PartReference 3V3,5V 1 2 C1,C61 2 2 C2,C3,C4,C5 3 4 C3.3V3,C109,C113,CUSB2,CUSB3,CUSB7,CUSB8 4 7 C6,C7 5 2 C8,C10,C63 6 3 C9,C78,C87,C90,C97,C100 7 6 C11,C12,C13,C14,C15,C18,C19,C20,C21,C22,C23,C2 4,C25,C3.3V2,C76,C77,C83,C85,C88,C95,C98,C104, C105,C106,C118,C120,C123 8 27 C3.3V1 9 1 C5V1,C108,C112 10 3 C79,C84,C89,C94,C99,C122 11 6 C80 12 1 C81 13 1 C82 14 1 C86,C96,C121 15 3 C91,C92,C101,C102 16 4 C93,C103,C124 17 3 C110,C111,C114,C115 18 4 C117 19 1 C119 20 1 C125,C126 21 2 CUSB1 22 1 CUSB4,CUSB5 23 2 D1,D2 24 2 D3.3V1,D5V1 25 2 DX1 26 1 GND 27 1 J1 28 1 J2,J4 29 2 J3,J5 30 2 JAIB1 31 1 JDEBUG1 32 1 JDMIC1,JDMIC2,JDMIC3,JDMIC4 33 4 JM1,JM2,JM3,JM4 34 4 JMARRY1 35 1 JPCM1 36 1 L1 37 1 L2,L3,L4,L5 38 4 LP2 39 1 P3 40 1 P4 41 1 P5,P6 42 2 P7 43 1 P8,P9 44 2 Q1 45 1 R1,R188,R204 46 3 R2,R9,R182,R185 47 4 R3,R10,R184,R187,R205 48 5 R4,R5,R6,R7,R11,R13,R178,R179,R180,R183 49 10 PartNumber 151306RC C0402C103K4RACTU C3216X5R1A107M160AC C0603C104K3RACTU C0402C200J5GACTU C0402C104K9RACTU C0603C105K4RACTU C0402C104K4RACTU C1206C226M9RACTU C0805C475K8RACTU CL05B105KQ5NQNC T499A475K006ATE6K0 C0603C104K5RACTU C0603C333K5RACTU GRM21BR71A106KE51L C0603C332K5RACTU C0805C224K1RACTU C0603C224K4RACTU T499A475K006ATE6K0 C0805C106K8RACTU T491C227M006AS C1206C106K4RACTU GRM1555C1H470JZ01D B12013F SMLLX15ICTR SMLLX15GCTR 151306RC XM7D0512 TSW10214LD TSW10214LD TSW10514LD TSW10414LD LeVNA380400255 SSQ10301FD TSW10614LD TMM10303LD MI0805K400R10 BLM18BD331SN1D DO1608C222ML SSQ11301SD SSQ10401GD SJ13535NGPI SJ435107RS SJ13535NGGR FDN339AN ERJ3EKF1001V ERJ3EKF5362V ERJ2RKF4990X ERJ3EKF3301V 100nF 22uF 4.7uF 1uF 4.7uF 100nF 33nF 10uF 3.3nF 220nF 220nF 470uF 10uF 220uF 10uF 47pF B12013F LED(SOT23) LED(SOT23) TP USB_Mini_B TSW10205LD_100mil_2x2pin_1 TSW10205LD_100mil_2x2pin_1a 10Pin TSW10414LD DigitalMic SSQ10301FD TSW10614LD TMM10303LD 40Ohm 330Ohm 2.2uH SSQ11303GD SSQ10401GD 3.5mmJack 3.5mmJack 3.5mmJack FDN339AN 1.0K 53.6K 499 3.3K Kemet Kemet Kemet Samsung Kemet Kemet Kemet Murata Kemet Kemet Kemet Kemet Kemet Kemet Kemet Murata DiodesInc Lumex Lumex Kobicon Omron Samtec Samtec Samtec Samtec Microsemi Samtec Samtec Samtec LairdTechnologies Murata Coilcraft Samtec Samtec CUI CUI CUI Fairchild Panasonic Panasonic Panasonic Panasonic Manufacturer Kobicon Kemet TDK Kemet Kemet Kemet Kemet 80C0402C104K4R 39974452ND 39974161ND 127615131ND 39949901ND 39950892ND 39934781ND 49039052ND 39910861ND 39980492ND 39956192ND 39949901ND 39974111ND 39932081ND 39935252ND 49012872ND B120FDITRND 6716842ND 6716851ND 151306RC 653XM7D0512 SAM105406ND 24023891ND 49052511ND CP13535NGPIND CP435107RSND CP13535NGGRND FDN339ANCTND P1.00KHCTND P53.6KHCTND P499LTRND P3.30KHCTND Digikey Digikey Digikey Digikey Digikey Digikey Digikey Digikey Digikey Digikey Digikey DistPartNumber 151306RC 39910381ND 44560071ND 39912811ND 39977731ND 80C0402C104K9R 80C0603C105K4R Mouser Digikey DigiKey Digikey Digikey Digikey Digikey Digikey Digikey Digikey Digikey Digikey Digikey Digikey Digikey Digikey Digikey Digikey Digikey Mouser Mouser Distributor Mouser Digikey Digikey Digikey Digikey Mouser Mouser 22 Microsemi Corporation Confidential and Proprietary 3A 1.5Amp 200mA 2.3A 25mA 25mA 0.460W 0.1Watt 0.1Watt 0.063Watt 0.1Watt Current Power 20Vdss 100V 100V 50V 100V 16V 6.3V 10V 6.3V 6.3V 50V 50V 10V 50V 100V 16V 6.3V 10V 6.3V 16V 50V 40V 2.1V 2.1V 1% 1% 1% 1% 10% 20% 10% 10% 10% 10% 10% 10% 10% 10% 10% 20% 10% 20% 10% 5% 10% 20% 10% 5% 10% 10% 16V 10V 25V 50V 6.3V 16V Note DNP MountonBottom MountonBottom RemovePin6 RemovePin10 DNP X7R X7R X7R X7R Tant X7R X7R DNP X7R X7R X7R X7R DNP Tant DNP X7R Tant X7R COG Schottky X7R X5R X7R NPO X7R X7R Tolerance Type Voltage CAP0402 CAP1206 CAP0805 CAP0402 TCAP3216 CAP0603 CAP0603 CAP0805 CAP0603 CAP0805 CAP0603 TCAP7343 CAP0805 TCAP6032 CAP1206 CAP0402 SMA_KA SOT23_LED SOT23_LED TP52 USB_MINIB_RA_TH HDR2x2_1 HDR2x2_1 HDR5X2_10 HDR4X2 Void HDR6_DIGITAL_MIC HDR6X2_6 HDR3X2_2MM IND0805 IND0603 ind_do1608 SSQ11303GD SSQ10401GD Jack_3p5mm_th Jack_TRRS_3p5mm_th Jack_3p5mm_th SSOT3 RES0603 RES0603 RES0402 RES0603 PCBFootprint TP52 CAP0402 CAP1206 CAP0603 CAP0402 CAP0402 CAP0603 4.1 Value TP 10nF 100uF 100nF 20pF 100nF 1uF ZLK38000 User Guide Evaluation Board BOM The Bill of Materials that corresponds to the ZLE38000 Evaluation Board is shown on the following pages. Title=EvaluationBoardfortheZLE38000Device Item Quantity PartReference R8,R186,R207 50 3 R14,R136,R167,R168,R169,R170,R171,R172,R174,R EN1,RPOP2,RSH1 51 12 R15,R158,R159,R160,R161,R162,R163,RI2S1,RI2S2, RI2S3,RI2S4,RI2S5,RI2S6,RI2S7,RI2S8,RSI1 52 16 R62,R144,R189,R198,R209,R210,R211 53 7 R81,R137,R138,R141,R142,R147,R148,R151,R164,R 165,R166,R173,R193,R196,R197,R206 54 16 R109 55 1 R118 56 1 R119,R120 57 2 R122,R123 58 2 R153 59 1 R154 60 1 R155,ROSC1 61 2 R176 62 1 R177,R181 63 2 R191,R192,R194,R195 64 4 R199 65 1 R200,R202 66 2 R201,R203 67 2 R208 68 1 R3.3V1 69 1 R3.3V2 70 1 R3V1 71 1 R5V1 72 1 RBS1 73 1 RDOWN1,RUP3,RX1 74 3 RGND1 75 1 RPOP1 76 1 RTN1 77 1 RUP1,RUP2 78 2 RUSB1,RUSB2 79 2 RUSB3,RUSB4 80 2 S1,S2,S3,S4 81 4 SP1 82 1 SW1 83 1 U1,U31,U40 84 3 U2 85 1 U3 86 1 U4 87 1 U5 88 1 U15 89 1 U21 90 1 U22,U23,U39 91 3 U26,U30,U32 92 3 U27 93 1 U28 94 1 U29 95 1 U35,U36 96 2 U37 97 1 U38 98 1 U6 99 1 Y1 100 1 Panasonic Panasonic Panasonic Panasonic Panasonic Panasonic Panasonic Panasonic Panasonic Panasonic Panasonic Panasonic Panasonic Panasonic Vishay Panasonic Panasonic Panasonic Panasonic Panasonic Panasonic Panasonic Panasonic Panasonic Panasonic Panasonic Panasonic Samtec Panasonic Toshiba FTDI Microsemi DiodesInc Macronix MicrochipTechnology OnSemi OnSemiconductor MicrochipTechnology Microsemi DoidesInc. NXP OnSemi Fairchild Fairchild Microsemi ECS ERJ2RKF33R2X ERJ2GEJ104X ERJ2GEJ103X ERJ2RKF2001X ERJ2RKF4530X ERJ2RKF2740X ERJ3EKF3301V ERJ2RKF1023X ERJ2GEJ100X ERJ2RKF1004X ERJ2RKF1000X ERJ3EKF2672V ERJ3EKF3742V ERJ2RKF5111X ERJ3GEY0R00V ERJ3GEY0R00V CRCW060310R0FKEAHP ERJ2RKF1103X ERJ2RKF2432X ERJ8GEY0R00V ERJ8GEY0R00V ERJ2RKF4700X ERJ3EKF1003V ERJ6GEY0R00V ERJ2GE0R00X ERJ2RKF43R2X ERJ3EKF1002V ERJ3EKF27R0V ERJ3EKF27R0V SNT100BKGH EVQ11L04M JBTC94B12AS FT234XDR LX7172ISE APX80931SAG7 MX25L4006EM1I12G 24LC32ATI/OT PACDN004SR NLASB3157DFT2G MCP6021TE/OT LX821312ISE 74LVC1G11DW7 74CBTLV3257BQ NCP2820MUTBG NC7SZ125M5X NC7S08M5X ZLE38000 ECS1202046X 33.2 100K 10K 2.0K 453 274 3.3K 100K 10.0 1.0Meg 100 26.7K 37.4K 5.11K 0OHM 0OHM 10.0 110K 24.3K 0Ohm 0Ohm 470 100K 0Ohm 0Ohm 43.2 10K 27 27 SNT100BKGH_100mil_Shunt Short EVQ11L04M JBTC94B12AS FT234XD LX7172 APX809 MX25L4006EM1 24LC32AT PACDN004SR NLASB3157DFT2G MCP6021 LX821312 74LVC1G11 74CBTLV3257 NCP2820 NC7SZ125 NC7S08 ZLE38000 ECS1202046X Panasonic Panasonic Panasonic ERJ2GE0R00X 0Ohm Manufacturer Panasonic PartNumber ERJ2RKF4993X Value 499K NC7S08M5XCTND XC1753ND Digikey P8078STBND JBTC94B12AS(EB)CTND 76811781ND LX7172ISETRCTND APX80931SAGDITRND 10921114ND 24LC32ATI/OTCTND PACDN004SROSCTND NLASB3157DFT2GOSCTND MCP6021TE/OTDKRND LX821312ISECTND 74LVC1G11DW7CTND 56854231ND NCP2820MUTBGOSCTND P10KJTRND P2.00KLCTND P453LTRND P274LTRND P3.30KHCTND P100KLTRND P10JCTND P1.00MLDKRND P100LCTND P26.7KHCTND P37.4KHCTND P5.11KLCTND P0.0GCTND P0.0GCTND 71CRCW060310R0FKEAH P110KLCTND P24.3KLCTND P0.0ECTND P0.0ECTND P470LCTND P100KHCTND P0.0ACTND P0.0JCTND P43.2LCTND P10.0KHCTND P27.0HCTND P27.0HCTND P3.3JCTND P100KJCTND P0.0JCTND Digikey Digikey Digikey Digikey Digikey Digikey Digikey Digikey Digikey Digikey Digikey Digikey Digikey Digikey Digikey Digikey Digikey Digikey Digikey Digikey Digikey Digikey Digikey Digikey Digikey Digikey Digikey Digikey Digikey Digikey Mouser Digikey Digikey Digikey Digikey Digikey Digikey Digikey Digikey Digikey Digikey Digikey Digikey Digikey Digikey Digikey Distributor DistPartNumber Digikey P499KLCTND 300mA 24mA 1.2Amp 2.65Watt 0.063Watt 0.063Watt 0.063Watt 0.063Watt 0.1Watt 0.063Watt 0.063Watt 0.063Watt 0.063Watt 0.1Watt 0.1Watt 0.063Watt 0.1Watt 0.1Watt 0.250Watt 0.063Watt 0.063Watt 0.25Watt 0.25Watt 0.063Watt 0.1Watt 0.1Watt 0.063Watt 0.063Watt 0.1Watt 0.1Watt 0.1Watt 1.2Vout 1.655.5V 3.6V 5.5Volt 5.5Vdc 2V6V 6V 5.5V 5.5V 3.08V 50V 50V 400V 400V 50V 100V 150V 50V 50V 100V 100V 100V 50V 50V 50V 50V 100V 50V 50V 50V 50V 100V 100V 50V 100V 100V 0.063Watt 50V 0.063Watt 50V 0.063Watt 50V Current Power Voltage 0.063Watt 50V 5% 1% 1% 1% 1% 1% 5% 1% 1% 1% 1% 1% 5% 5% 1% 1% 1% 5% 5% 1% 1% 1% 5% 1% 1% 1% 1% 1% 1% 5% ClassD Tolerance Type 1% MSCtoProvide DNP MatingPin90milmin DNP DNP DNP DNP DNP DNP Note RES0402 RES0402 RES0402 RES0402 RES0603 RES0402 RES0402 RES0402 RES0402 RES0603 RES0603 RES0402 RES0603 RES0603 RES0603 RES0402 RES0402 RES1206 RES1206 RES0402 RES0603 RES0805 RES0402 RES0402 RES0603 RES0603 RES0603 void SH2 SW_200 BGA_22p4x48 DFN12 SOT235 SOT23 SOP_8L SOT23_5 SOT143 SOT363 SOT235 SOT235 SOT363 DHVQFN16 DFN8 SOT23_5 SOT23_5 QFN64 OSC_100_24 RES0402 RES0402 RES0402 PCBFootprint RES0402 ZLK38000 User Guide 23 Microsemi Corporation Confidential and Proprietary Information relating to products and services furnished herein by Microsemi Corporation or its subsidiaries (collectively "Microsemi") is believed to be reliable. However, Microsemi assumes no liability for errors that may appear in this publication, or for liability otherwise arising from the application or use of any such information, product or service or for any infringement of patents or other intellectual property rights owned by third parties which may result from such application or use. Neither the supply of such information or purchase of product or service conveys any license, either express or implied, under patents or other intellectual property rights owned by Microsemi or licensed from third parties by Microsemi, whatsoever. Purchasers of products are also hereby notified that the use of product in certain ways or in combination with Microsemi, or non-Microsemi furnished goods or services may infringe patents or other intellectual property rights owned by Microsemi. This publication is issued to provide information only and (unless agreed by Microsemi in writing) may not be used, applied or reproduced for any purpose nor form part of any order or contract nor to be regarded as a representation relating to the products or services concerned. The products, their specifications, services and other information appearing in this publication are subject to change by Microsemi without notice. No warranty or guarantee express or implied is made regarding the capability, performance or suitability of any product or service. Information concerning possible methods of use is provided as a guide only and does not constitute any guarantee that such methods of use will be satisfactory in a specific piece of equipment. It is the user's responsibility to fully determine the performance and suitability of any equipment using such information and to ensure that any publication or data used is up to date and has not been superseded. Manufacturing does not necessarily include testing of all functions or parameters. These products are not suitable for use in any medical and other products whose failure to perform may result in significant injury or death to the user. All products and materials are sold and services provided subject to Microsemi's conditions of sale which are available on request. For more information about all Microsemi products visit our website at www.microsemi.com TECHNICAL DOCUMENTATION - NOT FOR RESALE Microsemi Corporation (NASDAQ: MSCC) offers a comprehensive portfolio of semiconductor solutions for: aerospace, defense and security; enterprise and communications; and industrial and alternative energy markets. Products include mixed-signal ICs, SoCs, and ASICs; programmable logic solutions; power management products; timing and voice processing devices; RF solutions; discrete components; and systems. Microsemi is headquartered in Aliso Viejo, Calif. Learn more at www.microsemi.com. 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