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BH76706GU-E2

BH76706GU-E2

BH76706GU-E2

For Reference Only

Part Number BH76706GU-E2
Manufacturer Rohm Semiconductor
Description IC VIDEO DVR SGL 6DB 8-VCSP
Datasheet BH76706GU-E2 Datasheet
Package 8-VFBGA, CSPBGA
In Stock 443 piece(s)
Unit Price $ 1.015 *
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BH76706GU-E2 Specifications

ManufacturerRohm Semiconductor
CategoryIntegrated Circuits (ICs) - Linear - Video Processing
Datasheet BH76706GU-E2 Datasheet
Package8-VFBGA, CSPBGA
Series-
TypeVideo Driver
ApplicationsVideo
Mounting TypeSurface Mount
Package / Case8-VFBGA, CSPBGA
Supplier Device PackageVCSP85H1

BH76706GU-E2 Datasheet

Page 1

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1/16 www.rohm.com 2009.03 - Rev.A © 2009 ROHM Co., Ltd. All rights reserved. Compact Video Driver Series for DSCs and Portable Devices Ultra-compact Waferlevel Chip Size Packeage Output Capacitor-less Single Output Video Drivers BH76906GU, BH76909GU, BH76912GU, BH76916GU, BH76706GU ●Description Due to a built-in charge pump circuit, this video driver does not require the large capacity tantalum capacitor at the video output pin that is essential in conventional video drivers. Features such as a built-in LPF that has bands suited to mobile equipment, current consumption of 0 μA at standby, and low voltage operation from as low as 2.5 V make it optimal for digital still cameras, mobile phones, and other equipment in which high density mounting is demanded. ●Features 1) WLCSP ultra-compact package (1.6 mm x 1.6 mm x 0.75 mm) 2) Improved noise characteristics over BH768xxFVM series 3) Four video driver amplifier gains in lineup: 6 dB, 9 dB, 12 dB, 16.5 dB 4) Large output video driver of maximum output voltage 5.2 Vpp. Ample operation margin for supporting even low voltage operation 5) Output coupling capacitor not needed, contributing to compact design 6) Built-in standby function and circuit current of 0 μA (typ) at standby 7) Clear image playback made possible by built-in 8th-order 4.5 MHz LPF 8) Due to use of bias input format, supports not only video signals but also chroma signals and RGB signals 9) Due to built-in output pin shunt switch, video output pin can be used as video input pin (BH76706GU) ●Applications Mobile phone, digital still camera, digital video camera, hand-held game, portable media player ●Line up matrix Product Name Video Driver Amplifier Gain Recommended Input Level Video Output Pin Shunt Function BH76906GU 6dB 1Vpp ― BH76909GU 9dB 0.7Vpp BH76912GU 12dB 0.5Vpp BH76916GU 16.5dB 0.3Vpp BH76706GU 6dB 1Vpp ○ ●Absolute Maximum Ratings (Ta = 25 °C) Parameter Symbol Rating Unit Supply voltage Vcc 3.55 V Power dissipation Pd 580 mW Operating temperature range Topr -40~+85 ℃ Storage temperature range Tstg -55~+125 ℃ * When mounted on a 50 mm×58 mm×1.6 mm glass epoxy board, reduce by 5.8mW/°C above Ta=+25°C. No. 09064EAT01

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Technical Note 2/16 BH76906GU, BH76909GU, BH76912GU, BH76916GU, BH76706GU www.rohm.com 2009.03 - Rev.A © 2009 ROHM Co., Ltd. All rights reserved. ●Operating Range Parameter Symbol Min. Typ. Max. Unit Supply voltage Vcc 2.5 3.0 3.45 V ●Electrical Characteristics [Unless otherwise specified, Typ. : Ta = 25 °C, VCC = 3V] Parameter Symbol Typical Values Unit Measurement Conditions BH76906 GU BH76909 GU BH76912 GU BH76916 GU BH76706 GU Circuit current 1-1 ICC1-1 15.0 mA In active mode (No signal) Circuit current 1-2 ICC1-2 17.0 mA In active mode (Outputting NTSC color bar signal) Circuit current 2 ICC2 0.0 μA In standby mode Circuit current 3 ICC3 - 100 μA In input mode (Applying B3 = 1.5 V) Standby switch input current High Level IthH1 45 - μA Applying B3 = 3.0 V Standby switch switching voltage High Level VthH1 1.2V min V Active mode Standby switch switching voltage Low Level VthL1 0.45Vmax V Standby mode Standby switch outflow current High Level IthH2 - 0 μA Applying B3 = 3.0 V Standby switch outflow current Middle Level IthM2 8 μA Applying B3 = 1.5 V Standby switch outflow current Low Level IthL2 23 μA Applying B3 = 0 V Mode switching voltage High Level VthH2 VCC -0.2 (MIN.) V Standby mode Mode switching voltage Middle Level VthM2 VCC/2 (TYP.) V Input mode Mode switching voltage low Level VthL2 0.2 (MAX.) V Active mode Voltage gain GV 6.0 9.0 12.0 16.5 6.0 dB Vo=100kHz, 1.0Vpp Maximum output level Vomv 5.2 Vpp f=10kHz,THD=1% Frequency characteristic 1 Gf1 -0.2 -0.2 dB f=4.5MHz/100KHz Frequency characteristic 2 Gf2 -1.5 -1.4 dB f=8.0MHz/100KHz Frequency characteristic 3 Gf3 -26 -28 dB f=18MHz/100KHz Frequency characteristic 4 Gf4 -44 -48 dB f=23.5MHz/100KHz Differential gain DG 0.5 % Vo=1.0Vp-p Inputting standard staircase Signal Differential phase DP 1.0 deg Vo=1.0Vp-p Inputting standard staircase signal Y signal to noise ratio SNY +74 +73 +70 +70 +74 dB 100 kHz~6MHz band Inputting 100% white video signal C AM signal to noise ratio SNCA +77 +76 +75 +75 +77 dB 100~500 kHz band Inputting 100% chroma video signal C PM signal to noise ratio SNCP +65 dB 100~500 kHz band Inputting 100% chroma video signal Current able to flow into output pin lextin 30 mA Applying 4.5 V to output pin through 150 Ω Output DC offset Voff ±50max mV With no signal Voff = (Vout pin voltage) ÷ 2 Input impedance Rin 150 kΩ Measure inflowing current when applying A3 = 1 V Output pin shunt switch on resistance Ron - 3 Ω

Page 4

Technical Note 3/16 BH76906GU, BH76909GU, BH76912GU, BH76916GU, BH76706GU www.rohm.com 2009.03 - Rev.A © 2009 ROHM Co., Ltd. All rights reserved. ●Test Circuit Diagram ●Block Diagram ●Operation Logic BH769xxGU STBY Pin Logic Operating Mode H Active L Standby OPEN BH76706GU STBY Pin Logic Operating Mode SW1 SW2 H Standby OFF OFF M Input (Record) ON OFF L Active (Playback) OFF ON ※Use of the BH76706GU with the STBY pin OPEN is inappropriate ※ A test circuit is a circuit for shipment inspection and differs from an application circuit example. Fig. 1 V A A3 B3 C3 A1 B1 C1 CHARGE PUMP OUT NVCC IN 150k A2 C2 VCC VIN STBY VOUT C_PLUS C_MINUS NVCC GND 75Ω 10u 0.01u (VCC) 0.1u 50Ω 75Ω 1.0uF 1.0uF V LPF A V V A A3 B3 C3 A1 B1 C1 CHARGE PUMP OUT NVCC IN 150k A2 C2 VCC VIN STBY VOUT C_PLUS C_MINUS NVCC GND 75Ω 10u 0.01u (VCC) 75Ω 1.0uF 1.0uF V LPF 0.1u A 50Ω V 100Ω A V A A 6dB 6/9/12/16.5dB A3 B3 C3 A1 B1 C1 CHARGE PUMP OUT NVCC IN 150k A2 C2 VCC VIN STBY VOUT C_PLUS C_MINUS NVCC GND LPF 6/9/12/16.5dB A3 B3 C3 A1 B1 C1 CHARGE PUMP OUT NVCC IN 150k A2 C2 VCC VIN STBY VOUT C_PLUS C_MINUS NVCC GND LPF 6dB (a) BH76906/09/12/16GU (b) BH76706GU Fig. 2 (a) BH76906/09/12/16GU (b) BH76706GU SW1 SW2 SW1 SW2 V

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Technical Note 4/16 BH76906GU, BH76909GU, BH76912GU, BH76916GU, BH76706GU www.rohm.com 2009.03 - Rev.A © 2009 ROHM Co., Ltd. All rights reserved. ●Pin Descriptions Ball Pin Name Pin Internal Equivalent Circuit Diagram DC Voltage Functional Description A1 C_PLUS +VCC ↑↓ 0V Flying capacitor “+” pin See functional descriptions of 7pin, 8pin A2 VCC VCC VCC pin A3 VIN 0V Video signal input pin B3 STBY VCC to 0V ACTIVE/STANBY switching pin Pin Voltage MODE 1.2 V~VCC ( H ) ACTIVE 0 V~0.45 V ( L ) STANBY MODE switching pin Pin Voltage MODE 2.8 V~VCC ( H ) STANBY 1.3 V~1.7 V (M) GND (Record) 0 V~0.2 V (L) ACTIVE (Playback) C3 VOUT 0V Video signal output pin C2 GND 0V GND pin Note 1) DC voltages in the figure are those when VCC = 3.0 V. Moreover, these values are reference values which are not guaranteed. Note 2) Numeric values in the figure are settings which do not guarantee ratings. C1 VCC GND NVCC VCC GND VIN VCC NV 4 .1k100 150K 4 .1k NVCC VOUT 75Ω 75Ω GND VCC NVCC VIN 1μF 150k Suitable input signals include composite video signals, chroma signals, R.G.B. signals 3.9k 3 9 STBY VCC GND 50K 250K 200K VCC GND C_PLUS BH76706GU STBY 100K 200K vcc vcc GND GND GND NVCC vcc 200K VOUT 1K NVCC NVCC VCC VCC GND BH76706GU only BH769xxGU

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Technical Note 5/16 BH76906GU, BH76909GU, BH76912GU, BH76916GU, BH76706GU www.rohm.com 2009.03 - Rev.A © 2009 ROHM Co., Ltd. All rights reserved. C1 NVCC -VCC (-2.75 V) Flying capacitor “-“ pin (8pin) B1 C_MINUS 0V ↑↓ -VCC (-2.75 V) Note 1) DC voltages in the figure are those when VCC = 3.0 V. Moreover, these values are reference values which are not guaranteed. Note 2) Numeric values in the figure are settings which do not guarantee ratings. ●Description of Operation 1) Principles of output coupling capacitorless video drivers For an amplifier operated from a single power supply (single-supply), since the operating point has a potential of approximately 1/2 Vcc, a coupling capacitor is required for preventing direct current in the output. Moreover, since the load resistance is 150 Ω (75 Ω + 75 Ω) for the video driver, the capacity of the coupling capacitor must be on the order of 1000 μF if you take into account the low band passband. (Fig.3) For an amplifier operated from dual power supplies (+ supply), since the operating point can be at GND level, a coupling capacitor for preventing output of direct current is not needed. Moreover, since a coupling capacitor is not needed, in principle, there is no lowering of the low band characteristic at the output stage. (Fig.4) 2) Occurrence of negative voltage due to charge pump circuit A charge pump, as shown in Fig. 5, consists of a pair of switches (SW1, SW2) and a pair of capacitors (flying capacitor, anchor capacitor). Switching the pair of switches as shown in Fig. 5 causes a negative voltage to occur by shifting the charge in the flying capacitor to the anchor capacitor as in a bucket relay. In this IC, by applying a voltage of +3 V, a negative voltage of approximately -2.8 V is obtained. 0V NVC C1 C2 VCC C2 NVCC GND VCC GND VCC VCC NVC Negative voltage pin (7pin) Dual-supply amplifier VCC -VCC 75Ω 75Ω Single-supply amplifier VCC 75Ω 75Ω 1/2 VCC bias 1000μF Fig.3 Fig.4 Output capacitor required since DC voltage is occurring at output pin Output capacitor not required since DC voltage does not occur at output pin C_MINUS

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Technical Note 6/16 BH76906GU, BH76909GU, BH76912GU, BH76916GU, BH76706GU www.rohm.com 2009.03 - Rev.A © 2009 ROHM Co., Ltd. All rights reserved. 3) Configuration of BH769xxGU and BH76706GU As shown in Fig. 6, a BH769xxGU or BH76706GU is a dual-supply amplifier and charge pump circuit integrated in one IC. Accordingly, while there is +3 V single-supply operation, since a dual-supply operation amplifier is used, an output coupling capacitor is not needed. 4) Input pin format and sag characteristic While a BH769xxGU or BH76706GU is a low voltage operation video driver, since it has a large dynamic range of approximately 5.2 Vpp, a resistance termination method that is compatible regardless of signal form (termination by 150 kΩ) is used, and not a clamp method that is an input method exclusively for video signals. Therefore, since a BH769xxGU or BH76706GU operates normally even if there is no synchronization signal in the input signal, it is compatible with not only normal video signals but also chroma signals and R.G.B. signals and has a wide application range. Moreover, concerning sag (lowering of low band frequency) that occurs at the input pin and becomes a problem for the resistance termination method, since the input termination resistor is a high 150 kΩ, even if it is combined with a small capacity input capacitor, a sag characteristic that is not a problem in actual use is obtained. In evaluating the sag characteristic, it is recommended that you use an H-bar signal in which sag readily stands out. (Fig. 8 to Fig. 10) Vcc +3V + - Charge current Flying capacitor Vcc +3V + - Charge current Flying capacitor - + Charge current -Vcc occurs - Vcc +3V -+ + - -Vcc occurs + Charge shifting modeCharging mode SW1 SW2 SW2SW1 Anchor Capacitor Anchor Capacitor Fig.5 Principles of Charge Pump Circuit 1-chip integration Dual-supply amplifier Charge pump VCC VCC -VCC 75Ω 75Ω 1μF 1μF 1μF 15 0k AMP Charge pump Fig.6 Configuration Diagram of BH769xxGU or BH76706GU Although single-supply, output capacitor is not needed.

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Technical Note 7/16 BH76906GU, BH76909GU, BH76912GU, BH76916GU, BH76706GU www.rohm.com 2009.03 - Rev.A © 2009 ROHM Co., Ltd. All rights reserved. 75Ω+75Ω=150Ω a) Video signal without sag (TG-7/1 output, H-bar) b) BH769xxGU or BH76706GU output (Input = 1.0 μF, TG-7/1 output, H-bar) c) 1000 μF + 150 Ω sag waveform (TG-7/1 output, H-bar) Fig. 7 1μF 150k Sag occurs Sag is determined by input capacitor and input resistor only. Input capacitor and input impedance cutoff frequency is the same as when output capacitor in generic 75 Ω driver is made 1000 μF. 1 μF x 150 kΩ = 1000 μF x 150 Ω (Input pin time constant) (Output pin time constant) TV screen output image of H-bar signal Monitor TG-7/1 BH769xxGU・BH76706GU Nearly identical sag Fig. 8 Fig. 9 Fig. 10 75Ω 75Ω 1μF 15 0k TG-7/1 75Ω 75Ω Monitor 1000μF

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Technical Note 8/16 BH76906GU, BH76909GU, BH76912GU, BH76916GU, BH76706GU www.rohm.com 2009.03 - Rev.A © 2009 ROHM Co., Ltd. All rights reserved. ●Application Circuit Example *SW1 and SW2 are built-in BH76706GU only See page 3/16 for STBY pin logic in each mode Fig.11 ●Caution on use 1. Wiring from the decoupling capacitor C4 to the IC should be kept as short as possible. Moreover, this capacitor's capacitance value may have ripple effects on the IC, and may affect the S-N ratio for signals, so we recommend using as large a decoupling capacitor as possible. (Recommended C4: 3.3 µF, B characteristics, 6.3 V or higher maximum voltage) Make mount board patterns follow the layout example shown on page 10 as closely as possible. 2. Capacitors to use In view of the temperature characteristics, etc., we recommend a ceramic capacitor with B characteristics. 3. The NVCC (C1 pin) terminal generates a voltage that is used within the IC, so it should never be connected to a load unless absolutely necessary. Moreover, this capacitor (C2) has a large capacitance value but very little negative voltage ripple. (Recommended C2: 1.0 μF, B characteristic, 6.3 V or higher maximum voltage) 4. Capacitors C1 and C4 should be placed as close as possible to the IC. If the wiring to the capacitor is too long, it can lead to intrusion of switching noise. (Recommended C1: 1.0 µF, B characteristics, 6.3 V or higher maximum voltage) 5. The HPF consists of input coupling capacitor C3 and 150 kΩ of internal input impedance. Be sure to check for video signal sag before determining the C3 value. The cut-off frequency fc can be calculated using the following formula. fc = 1/(2π×C3×150kΩ) (Recommended C3: 1.0 μF, B characteristic, 6.3 V or higher maximum voltage) 6. The output resistor R2 should be placed close to the IC. 7. If the IC is mounted in the wrong direction, there is a risk of damage due to problems such as inverting VCC and GND. Be careful when mounting it. 8. A large current transition occurs in the power supply pin when the charge pump circuit is switched. If this affects other ICs (via the power supply line), insert a resistor (approximately 10 Ω) in the VCC line to improve the power supply's ripple effects. Although inserting a 10 Ω resistor lowers the voltage by about 0.2 V, this IC has a wide margin for low-voltage operation, so dynamic range problems or other problems should not occur. (See Figures 12 to 14.) ※ We are confident in recommending the above application circuit example, but we ask that you carefully check not just the static characteristics but also transient characteristics of this circuit before using it. At playback (Active mode) Recording (Input mode) BH76706GU only A3 B3 C3 A1 B1 C1 CHARGE PUMP NVCC 150k Vcc VIN STBY VOUT C_PLUS C_MINUS NVCC GND A2 C2 VIDEO IN VIDEO IN 2.5~3.45V LPF SW1 SW2 75Ω A3 B3 C3 A1 B1 C1 CHARGE PUMP NVCC 150k Vcc VIN STBY VOUT C_PLUS C_MINUS NVCC GND A2 C2 VIDEO IN R2=75Ω VIDEO OUT C2=1.0uF C4=3.3uF 2.5~3.45V LPF Video monitor CIRCUIT CURREN SW1 SW2 6dB 6/9/12/16.5dB C4=3.3uF C2=1.0uF C1=1.0uF C1=1.0uF C3=1.0uF C3=1.0uF R2=75Ω

Page 10

Technical Note 9/16 BH76906GU, BH76909GU, BH76912GU, BH76916GU, BH76706GU www.rohm.com 2009.03 - Rev.A © 2009 ROHM Co., Ltd. All rights reserved. 1) Decoupling capacitor only 1) Decoupling capacitor only 2) Decoupling capacitor + 10 Ω resistor 2) Decoupling capacitor + 10 Ω resistor A A B Vcc Vcc A A A C Vcc Vcc A 10Ω B A Waveform of current between power supply and capacitor (A) 10 mA/div Waveform of current between capacitor and IC (B) 10 mA/div Waveform of current between power supply and capacitor (A) 10 mA/div Waveform of current between resistor and capacitor (B) 10 mA/div Waveform of current between capacitor and IC (C) 10 mA/div DAC or Other VIDEO AMP Chrarge Pump VOUT -Vcc 75Ω 75Ω 1uF 1 5 0 k Ω 1uF VIN 1uF 3.3uF 1 0 Ω Vcc Vcc pin Fig.12 Effects of Charge Pump Circuit Current Ripple on External Circuit Fig.13 1. Current ripple due to charge pump circuit affects power supply Vcc pin 2. Current ripple affects DAC or other Fig.14

BH76706GU-E2 Reviews

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Orlan*****avsar

January 5, 2020

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November 24, 2019

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November 7, 2019

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October 18, 2019

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October 8, 2019

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October 7, 2019

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October 1, 2019

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September 30, 2019

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September 26, 2019

Used these for a solar project, and they are working great.

Kais*****cevedo

September 12, 2019

I am a novice technician. I really rely on reviews to help guide me, as I do not have anyone to assist me with electronics. I purchased these items and report I am happy with the purchase. I took a chance and it was one of the better choices I made.

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