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SMART SOLUTION Tes Potensi Akademik SBMPTN 2013

Rangkuman Materi SBMPTN 2013 SELEKSI BERSAMA MASUK PERGURUAN TINGGI NEGERI Disertai Teori Ringkas dan Pembahasan Soal Tes Potensi Akademik (TPA) Disusun Oleh : Pak Anang Kumpulan SMART SOLUTION dan TRIK SUPERKILAT Ringkasan Materi SBMPTN Tes Potensi Akademik (TPA) Penalaran Verbal (Sinonim, Antonim, dan Analogi) By Pak Anang (http://pak-anang.blogspot.com) A. PENALARAN VERBAL 1. SINONIM (Padanan Kata) Soal-soal sinonim, kemampuan yang dituntut adalah adik-adik mampu mencari arti dari sebuah kata pada pilihan jawaban yang tersedia. Tips agar adik-adik mudah menyelesaikan soal tentang sinonim adalah sering membaca. Nah, saat menemukan kata-kata asing, jangan ditinggalkan begitu saja, catat dan coba mencari padanan katanya di Kamus Besar Bahasa Indonesia. TRIK SUPERKILAT: Seringkali ada pilihan jawaban yang hampir mirip dengan soal. Biasanya jawaban ini adalah diberikan sebagai jawaban jebakan. Contoh soal sinonim: PARTIKELIR = .... A. Tukang parkir B. Partisan C. Partisi D. Swasta E. Enterprener Pembahasan: Jawaban B dan C mirip dengan kata yang digunakan pada soal. Biasanya ini mudah kita eliminasi sebagai jebakan jawaban..... Sehingga mempemudah kita dalam menjawab soal sinonim ini. Jawaban yang tepat adalah ”swasta”. 2. ANTONIM (Lawan Kata) Soal tentang antonim ini kebalikan dari sinonim. Dalam soal antonim adik-adik dituntut untuk mencari lawan kata dari soal yang diberikan. Contoh soal antonim: TERKATUNG A.Melayang B.Pasti C.Ombak D.Terperosok E.Terbenam

Electrolux Major Appliances 30-INCH SLIDE-IN ELECTRIC RANGE ...

Product No. EW30ES6CGS6 37663376J76S6 Series 30" elec Color stainless Market Canada Wiring Diagram 318550155 Owner's Guide 318203847 Installation Instructions 318201615 Service Data Sheet 318127078 Quick Start Guide 318203404 30-INCH SLIDE-IN RANGE EW30ES65GS.bmp CEW30ES65GWB.eps BEW30ES6CGS5.eps TEW30ES65GSE.eps ELECTRIC DEW30DS6CGS6.eps 318550155-1.eps 318550155-2.eps Model No. EW30ES6CG Electrolux Major Appliances P.O. BOX 8020 CHARLOTTE, NC 28262 Publication No. 5995581237 10/11/22 (EN/SERVICE/ECL) 377 Publication No: 5995581237 EW30ES6CGS6 BACKGUARD 11/10 2 EW30ES6CGS6 Publication No: 5995581237 BACKGUARD POS. NO 18 19 # 20 # 21 22 23 24 25 97A# 99 # 99*# PART NO. 318900301 318387121 316576612 316524400 318905005 5304417153 5303307980 5303131801 316576432 316535201 318578306 DESCRIPTION Subframe, control Control Assembly, glass, black, w/interface Controller, electronic, ES630 Screw, control mtg, 6-32 x .25, (5) Panel, service, stainless Screw, shoulder, 8-18 X 1/2, (4) Screw, 8-32 x 0.437, (8) Screw, 10 x 3/8 Board, power, UIB Board, power supply, 8V Harness, wiring, power supply * # * # * * 318578320 318578321 318163602 5303211311 Harness, wiring, controller, to UIB Harness, wiring, UIB, to power boards Cleaner, stainless steel Screw, 8-18 x 0.500 # Functional Parts * Non-Illustrated Parts 3 11/10 Publication No: 5995581237 EW30ES6CGS6 BODY 11/10 4 EW30ES6CGS6 Publication No: 5995581237 BODY POS. NO 1 1A 2 3 4 4A 6 6A 6B 7 8 8A 8B 8B* 9 10 11 12 13 13* 14 # * # 15 18 20 21 24 29 37 # 39 # 53 # 54 # 54* 54* 54* 55 58A 58B 58C 58D 59 59* 62 62* 66 # 67 # 70 71 76 77 77A # Functional Parts * Non-Illustrated Parts

GP2D120 Data Sheet.fm - Sharp Microelectronics of the Americas

GP2D120 Optoelectronic Device FEATURES • Analog output • Effective range: 4 to 30 cm • Typical response time: 39 ms 1 2 3 • Typical start up delay: 44 ms • Average Current Consumption: 33 mA DESCRIPTION PIN SIGNAL NAME The GP2D120 is a distance measuring sensor with integrated signal processing and analog voltage output. 1 VO 2 GND 3 VCC GP2D120-8 Figure 1. Pinout GND VCC PSD SIGNAL PROCESSING CIRCUIT VOLTAGE REGULATOR OSCILLATOR CIRCUIT OUTPUT CIRCUIT LED DRIVE CIRCUIT Vo LED MEASURING DISTANCE IC GP2D120-4 Figure 2. Block Diagram 1 Data Sheet GP2D120 ELECTRICAL SPECIFICATIONS Absolute Maximum Ratings Ta = 25°C, VCC = 5 VDC PARAMETER SYMBOL RATING UNIT Supply Voltage VCC -0.3 to +7 V Output Terminal Voltage VO -0.3 to (VCC +0.3) V Operating Temperature Topr -10 to +60 °C Storage Temperature Tstg -40 to +70 °C Operating Supply Voltage PARAMETER SYMBOL RATING UNIT Operating Supply Voltage VCC 4.5 to 5.5 V Electro-optical Characteristics Ta = 25°C, VCC = 5 VDC PARAMETER SYMBOL Measuring Distance Range ΔL Output Terminal Voltage VO CONDITIONS MIN. TYP. MAX. UNIT NOTES 4 — 30 cm 1, 2 L = 30 cm...

PEMBAHASAN DAN KUNCI JAWABAN GEOGRAFI KELAS XII ...

PEMBAHASAN DAN KUNCI JAWABAN GEOGRAFI KELAS XII PAKET B 1. Berdasarkan soal nomor 1 a. Konsep aglomerasi adalah merupakan gabungan, kumpulan, 2 atau lebih pusat kegiatan dalam 1 lokasi/kawasan terterntu seperti kawasan industri, pemukiman, perdagangan, dsb. b. Konsep morfologi menjelaskan kenampakan bentuk-bentuk muka bumi, seperti dataran rendah, lereng, bukit/dataran tinggi. c. Konsep pola menitik beratkan pada pola keruangan baik fisik maupun sosialnya seperti pola permukiman penduduk, pola aliran sungai, dsb. d. Konsep lokasi mengkaji letak suatu objek dipermukaan bumi. Pada konsep ini utamanya dalam menjawab pertanyaan dimana (where). e. Konsep ketergantungan adalah konsep yang menunjukkan keterkaitan keruangan antar wilayah akibat adanya perbedaan potensi antar wilayah. Seperti keterkaitan antara desa dengan kota. Kunci jawaban D 2. Prinsip-prinsip geografi ada 4 a. Prinsip deskripsi, merupakan penjelasan lebih jauh mengenai gejala-gejala yang diselidiki/dipelajari. Deskripsi disajikan dalam bentuk tulisan, diagram tabel/gambar/peta. b. Prinsip korologi, merupakan gejala, fakta/masalah geografi disuatu tempat yang ditinjau dari sebaran, interelasi, interaksi, dan integrasinya dalam ruang. c. Prinsip persebaran, merupakan suatu gejala dan fakta yang tersebar tidak merata dipermukaan bumi. d. Prinsip interelasi, merupakan suatu hubungan yang saling terkait dalam ruang antara gejala yang 1 dengan gejala lain. e. Prinsip distribusi, merupakan suatu gejala dan fakta yang tidak merata dipermukaan bumi.

KUNCI JAWABAN TUKPD DKI TAHAP 2 MATA PELAJARAN : IPA ...

KUNCI JAWABAN TUKPD DKI TAHAP 2 MATA PELAJARAN : IPA TAHUN PELAJARAN : 2012-2013 Pilihlah jawaban yang benar! 1. Dua orang atlet mulai berlari dengan waktu bersamaan, dan saat mencapai garis finish dicatat dengan hasil seperti gambar. Selisih waktu antara Atlet 1 dengan Atlet 2 adalah .... A. 45s B. 28s C. 17s D. 11s Pembahasan : Waktu tempuh Atlet 1 adalah 17sekon dan Atlet 2 adalah 28sekon. Selisih waktu kedua Atlet = 28s – 22s = 6s Kunci : # (Anulir) 2. 4. 5. Pembahasan : 3. Termometer dinding yang menggunakan skala suhu Celsius menunjukkan suhu ruang kelas 300C. Suhu ruang tersebut sama dengan .... A. 560F B. 540F C. 620F D. 860F Pembahasan: Persamaan antara skala Celsius ke skala Fahrenheit adalah : 9 9 t oC  t  32 o F  30  32 5 5  54  32  86o F Kunci : D Grafik berikut melukiskan pemanasan 3kg air. Jika kalor jenis air 4200J/kg0C, kalor yang diperlukan pada proses R ke S adalah .... A. 12600J B. 126000J C. 252000J D. 378000J Pembahasan: Massa (m) = 3kg, C= 4200J/kg0C dan perubahan suhu (t) = 30 – 10 = 20oC Kalor yang diperlukan : Q = m.C. t = 3kg . 4200J/kg0C . 20oC Q = 126000J Kunci : C

Design of All Digital FM Receiver Circuit - OpenCores

1. Introduction The design of the All Digital FM Receiver circuit in this project uses Phase Locked Loop (PLL) as the main core. The task of the PLL is to maintain coherence between the input (modulated) signal frequency, ωi and the respective output frequency, ωo via phase comparison. This self-correcting ability of the system also allows the PLL to track the frequency changes of the input signal once it is locked. Frequency modulated input signal is assumed as a series of numerical values (digital signal) via 8-bit of analog to digital conversion (ADC) circuit. The FM Receiver gets the 8 bit signal every clock cycle and outputs the demodulated signal. The All Digital FM Receiver circuit is designed using VHDL, then simulated and synthesized using ModelSim SE 6 simulator and Xilinx ISE 6.3i, respectively. FPGA implementation also provided, here we use Virtex2 device. The real measurement is done using ChipScope Pro 6.3i. 2. Architecture Description The system of All Digital FM Receiver consists of a digital PLL cascaded with digital low pass filter. The block diagram of system is shown in Fig. 1.

LM3089 FM Receiver IF System
by dietdude 0 Comments favorite 7 Viewed Download 0 Times

LM3089 FM Receiver IF System Y General Description The LM3089 has been designed to provide all the major functions required for modern FM IF designs of automotive high-fidelity and communications receivers Y Features Y Y Y Three stage IF amplifier limiter provides 12 mV (typ) b 3 dB limiting sensitivity Balanced product detector and audio amplifier provide 400 mV (typ) of recovered audio with distortion as low as 0 1% with proper external coil designs Y Y Four internal carrier level detectors provide delayed AGC signal to tuner IF level meter drive current and interchannel mute control AFC amplifier provides AFC current for tuner and or center tuning meters Improved operating and temperature performance especially when using high Q quadrature coils in narrow band FM communications receivers No mute circuit latchup problems A direct replacement for CA3089E Connection Diagram Dual-In-Line Package TL H 7149 – 2 Top View Order Number LM3089N See NS Package Number N16E C1995 National Semiconductor Corporation TL H 7149 RRD-B30M115 Printed in U S A LM3089 FM Receiver IF System September 1992 Toko America 1250 Feehanville Drive Mount Prospect IL 60056 (312) 297-0070 TL H 7149 – 1

LM3089 FM Receiver IF System (Rev. A) - Texas Instruments

LM3089 FM Receiver IF System Literature Number: SNOSBQ6A LM3089 FM Receiver IF System The LM3089 has been designed to provide all the major functions required for modern FM IF designs of automotive high-fidelity and communications receivers Y Features Y Y Y Three stage IF amplifier limiter provides 12 mV (typ) b 3 dB limiting sensitivity Balanced product detector and audio amplifier provide 400 mV (typ) of recovered audio with distortion as low as 0 1% with proper external coil designs Y Y Four internal carrier level detectors provide delayed AGC signal to tuner IF level meter drive current and interchannel mute control AFC amplifier provides AFC current for tuner and or center tuning meters Improved operating and temperature performance especially when using high Q quadrature coils in narrow band FM communications receivers No mute circuit latchup problems A direct replacement for CA3089E Connection Diagram bs ol et Dual-In-Line Package e Y General Description TL H 7149 – 2 Top View O Order Number LM3089N See NS Package Number N16E C1995 National Semiconductor Corporation TL H 7149 RRD-B30M115 Printed in U S A LM3089 FM Receiver IF System

Haltech E8 to Mazda RX-7 FD W...
by robeo 0 Comments favorite 9 Viewed Download 0 Times

E6X Wiring Diagram Mazda RX-7 3rd Gen Series 6 TRIGGER INPUTS Main Trigger Ground A 13 6 26 26 TRIGGER GROUND B C HOME TRIGGER E HOME GROUND Main Trigger Signal Home Trigger Signal HOME TRIGGER HOME GROUND From Sensor Supply Via 15A Fuse +SEN Ne- to Ground (Red) MAIN TRIGGER D MAIN TRIGGER TRIGGER GROUND Home Trigger Ground Ne+ (12 teeth) to Main Trigger Pos. (Yellow) G+ (1 tooth) to Home Trigger Pos. (Green) G- to Ground (Blue) F Note: Shielded cable should be wired at ECU end only. 26 27 36 35 34 GROUND [B] AUX. OUT [G / B ] IGNITION #1 [W/B] IGNITION #3 [L] IGNITION #4 Not Used [ LG ] IGNITION #2 Not Used [L/Y] Leading Coil Signal Trailing Front Coil Signal Trailing Rear Coil Signal +12V Switched Power [B/R] Leading Coil Signal (from Igniter) 12 [Y/L] Not Used Trailing Front (from Igniter) 20 21 INJECTOR #1 Leading Coil Neg. 22 Leading Input (From Haltech Ign1) Trailing 2 Coil Neg. +12V Supply for Injectors and Sensors. 26 32 L1 / L2 T2 [G/R] [P] T1 [L/R] INJECTOR #3 [L/W] [ LB ] INJECTOR #2 INJECTOR #4 19 [R] Trailing Rear (from Igniter) [ LG / B ] [ LG ] [ LG / W ] +12V Power Supply [B/W] Trailing 2 Input (From Haltech Ign3) [ BR / B ] Trailing 1 Coil Neg. GROUND [G/R] +SEN Stock FD Igniter GROUND Trailing 1 Input (From Haltech Ign2) Secondary Rear Rotor LOOKING AT ECU CONNECTOR 1 18 19 36 Secondary Rear Rotor Primary Rear Rotor [ BR ] Primary Front Rotor LEGEND - WIRE COLORS: Haltech E6X to Mazda RX-7 FD3S B = BLACK BR = BROWN G = GREEN GY = GREY L = BLUE O = ORANGE P = PINK R = RED V = VIOLET Y = YELLOW When two colors are used in a wire by the alphabetical code, the first letter indicates the basic wire color, the second indicates the color of stripe. (Ex. O/R = Orange with Red stripe, GY/R = Grey with Red stripe) Series 6, FD3S, 93-95, Stock CAS & Igniter/Coil Wiring Haltech USA - www.haltech.com

Wiring Diagram - the Yorba Linda Miata Page

WIRING DIAGRAMS Article Text 1990 Mazda Miata For Yorba Linda Miata Copyright © 1998 Mitchell Repair Information Company, LLC Saturday, May 10, 2003 11:19AM ARTICLE BEGINNING 1990 WIRING DIAGRAMS Mazda Miata IDENTIFICATION COMPONENT LOCATION MENU COMPONENT LOCATIONS TABLE Figure No. (Location) A/C RELAY ....................................... 3 (E 11) A/C THERMO SWITCH ................................ 3 (E 8) A/T CONTROL UNIT .............................. 4 (D-E 16) AIR BAG CONTROL UNIT ............................ 4 (B 16) ALTERNATOR ....................................... 1 (D 3) BACKUP BATTERY .................................. 5 (A 16) BATTERY .......................................... 1 (A 2) BLOWER MOTOR RELAY ............................... 3 (D 9) CIG LIGHTER ...................................... 3 (C 9) CIRCUIT OPENING RELAY ............................ 2 (C 4) CLUTCH SWITCH M/T ................................ 2 (E 7) COMBINATION SW .......................... 4, 5 (D 12 C 16) COOLING FAN RELAY ............................... 3 (E 10) CRUISE CONTROL ................................ 4 (C-E 15) DIAG CONNECTOR ................................... 2 (B 4) DIR/HAZ SWITCH .................................. 4 (C 14) DOOR SWITCH ..................................... 3 (C 10) ENGINE CONTROL UNIT (ECU) ...................... 2 (A 4-7) FOG LIGHT SWITCH ................................ 4 (C 12) FUEL TANK UNIT .................................. 5 (A 18) FUSE BLOCK .................................... 3 (B 9-10) HEADLIGHT RELAY ................................. 4 (D 14) HEADLIGHT RETRACTORS ........................ 1 (B 1, D 1) HEATER CONTROL UNIT .............................. 3 (E 8) HORN RELAY ...................................... 5 (C 17) IGNITER .......................................... 2 (C 4) IGNITION COIL .................................... 2 (D 4) IGNITION SWITCH .................................. 3 (A 8) ILLUM LIGHTS ............................... 4 (B-C 12-13) INHIBITOR SWITCH ................................. 1 (A 3) INSTRUMENT CLUSTER ........................... 4 (A 12-15)

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