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9 FN6728.7 November 15, 2012 Applications Information Functional Description The ISL28113, ISL28213 and ISL28413 a" />

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鍨嬭櫉锛�	ISL28213FBZ
寤犲晢锛�	Intersil
鏂囦欢闋佹暩(sh霉)锛�	23/23闋�
鏂囦欢澶�?銆�?/td>	0K
鎻忚堪锛�	IC OPAMP GP RRIO 2MHZ DUAL 8SOIC
妯�(bi膩o)婧�(zh菙n)鍖呰锛�	97
鏀惧ぇ鍣ㄩ鍨嬶細	閫氱敤
闆昏矾鏁�(sh霉)锛�	2
杓稿嚭椤炲瀷锛�	婊挎摵骞�
杞�(zhu菐n)鎻涢€熺巼锛�	1 V/µs
澧炵泭甯跺绌嶏細	2MHz
闆绘祦 - 杓稿叆鍋忓锛�	3pA
闆诲 - 杓稿叆鍋忕Щ锛�	500µV
闆绘祦 - 闆绘簮锛�	90µA
闆绘祦 - 杓稿嚭 / 閫氶亾锛�	22mA
闆诲 - 闆绘簮锛屽柈璺�/闆欒矾(±)锛�	1.8 V ~ 5.5 V锛�±0.9 V ~ 2.5 V
宸ヤ綔婧害锛�	-40°C ~ 125°C
瀹夎椤炲瀷锛�	琛ㄩ潰璨艰
灏佽/澶栨锛�	8-SOIC锛�0.154"锛�3.90mm 瀵級
渚涙噳(y墨ng)鍟嗚ō(sh猫)鍌欏皝瑁濓細	8-SOIC
鍖呰锛�	绠′欢

ISL28113, ISL28213, ISL28413

FN6728.7

November 15, 2012

Applications Information

Functional Description

The ISL28113, ISL28213 and ISL28413 are single, dual and

quad, CMOS rail-to-rail input, output (RRIO) micropower

operational amplifiers. They are designed to operate from single

supply (1.8V to 5.5V) or dual supply (卤0.9V to 卤2.75V). The parts

have an input common mode range that extends 100mV above

and below the power supply voltage rails. The output stage can

swing to within 15mV of the supply rails with a 10k load.

Input ESD Diode Protection

All input terminals have internal ESD protection diodes to both

positive and negative supply rails, limiting the input voltage to

within one diode beyond the supply rails (see 鈥淧in Descriptions -

Circuit 1鈥� on page 3). For applications where the input voltage

may exceed either power supply voltage by 0.5V or more, an

external series resistor must be used to ensure the input currents

never exceed 20mA (see Figure 19).

Output Phase Reversal

Output phase reversal is a change of polarity in the amplifier

transfer function when the input voltage exceeds the supply

voltage. The ISL28113, ISL28213 and ISL28413 are immune to

output phase reversal, even when the input voltage is 1V beyond

the supplies.

Unused Channels

If the application requires less than all amplifiers one channel,

the user must configure the unused channel(s) to prevent it from

oscillating. The unused channel(s) will oscillate if the input and

output pins are floating. This will result in higher than expected

supply currents and possible noise injection into the channel

being used. The proper way to prevent this oscillation is to short

the output to the inverting input and ground the positive input (as

shown in Figure 20).

Power Dissipation

It is possible to exceed the +125掳C maximum junction

temperatures under certain load, power supply conditions and

ambient temperature conditions. It is therefore important to

calculate the maximum junction temperature (TJMAX) for all

applications to determine if power supply voltages, load

conditions, or package type need to be modified to remain in the

safe operating area. These parameters are related using

Equation 1:

where:

PDMAXTOTAL is the sum of the maximum power dissipation of

each amplifier in the package (PDMAX)

PDMAX for each amplifier can be calculated using Equation 2:

where:

TMAX = Maximum ambient temperature

胃JA = Thermal resistance of the package

PDMAX = Maximum power dissipation of 1 amplifier

VS = Total supply voltage

IqMAX = Maximum quiescent supply current of 1 amplifier

VOUTMAX = Maximum output voltage swing of the application

RL = Load resistance

ISL28113, ISL28213 and ISL28413 SPICE

Model

Figure 21 shows the SPICE model schematic and Figure 22 shows

the net list for the SPICE model. The model is a simplified version

of the actual device and simulates important AC and DC

parameters. AC parameters incorporated into the model are: 1/f

and flatband noise, Slew Rate, CMRR, Gain and Phase. The DC

parameters are IOS, total supply current and output voltage swing.

The model uses typical parameters given in the 鈥淓lectrical

Specifications鈥� Table beginning on page 4. The AVOL is adjusted

for 85dB with the dominate pole at 100Hz. The CMRR is set 72dB,

f = 35kHz). The input stage models the actual device to present an

accurate AC representation. The model is configured for ambient

temperature of +25掳C.

Figures 23 through 32 show the characterization vs simulation

results for the Noise Voltage, Closed Loop Gain vs Frequency,

Large Signal 5V Step Response, CMRR and Open Loop Gain

Phase.

FIGURE 19. INPUT ESD DIODE CURRENT LIMITING

RIN-

VIN-

V+

V-

RIN+

FIGURE 20. PREVENTING OSCILLATIONS IN UNUSED CHANNELS

JMAX

MAX

胃

JAxPDMAXTOTAL

(EQ. 1)

MAX

qMAX

(

- V

OUTMAX )

OUTMAX

----------------------------

脳

(EQ. 2)

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ISL28213FBZ-T13	鍔熻兘鎻忚堪:IC OPAMP GP RRIO 2MHZ DUAL 8SOIC RoHS:鏄� 椤炲垾:闆嗘垚闆昏矾 (IC) >> Linear - Amplifiers - Instrumentation 绯诲垪:- 妯�(bi膩o)婧�(zh菙n)鍖呰:2,500 绯诲垪:MicroAmplifier™ 鏀惧ぇ鍣ㄩ鍨�:閫氱敤闆昏矾鏁�(sh霉):2 杓稿嚭椤炲瀷:- 杞�(zhu菐n)鎻涢€熺巼:3.5 V/µs 澧炵泭甯跺绌�:1MHz -3db甯跺:- 闆绘祦 - 杓稿叆鍋忓:5pA 闆诲 - 杓稿叆鍋忕Щ:1500µV 闆绘祦 - 闆绘簮:220µA 闆绘祦 - 杓稿嚭 / 閫氶亾:60mA 闆诲 - 闆绘簮锛屽柈璺�/闆欒矾(±):4.5 V ~ 36 V锛�±2.25 V ~ 18 V 宸ヤ綔婧害:-40°C ~ 85°C 瀹夎椤炲瀷:琛ㄩ潰璨艰 灏佽/澶栨:8-SOIC锛�0.154"锛�3.90mm 瀵級渚涙噳(y墨ng)鍟嗚ō(sh猫)鍌欏皝瑁�:8-SOIC 鍖呰:甯跺嵎 (TR)
ISL28213FBZ-T7	鍔熻兘鎻忚堪:IC OPAMP GP RRIO 2MHZ DUAL 8SOIC RoHS:鏄� 椤炲垾:闆嗘垚闆昏矾 (IC) >> Linear - Amplifiers - Instrumentation 绯诲垪:- 妯�(bi膩o)婧�(zh菙n)鍖呰:2,500 绯诲垪:MicroAmplifier™ 鏀惧ぇ鍣ㄩ鍨�:閫氱敤闆昏矾鏁�(sh霉):2 杓稿嚭椤炲瀷:- 杞�(zhu菐n)鎻涢€熺巼:3.5 V/µs 澧炵泭甯跺绌�:1MHz -3db甯跺:- 闆绘祦 - 杓稿叆鍋忓:5pA 闆诲 - 杓稿叆鍋忕Щ:1500µV 闆绘祦 - 闆绘簮:220µA 闆绘祦 - 杓稿嚭 / 閫氶亾:60mA 闆诲 - 闆绘簮锛屽柈璺�/闆欒矾(±):4.5 V ~ 36 V锛�±2.25 V ~ 18 V 宸ヤ綔婧害:-40°C ~ 85°C 瀹夎椤炲瀷:琛ㄩ潰璨艰 灏佽/澶栨:8-SOIC锛�0.154"锛�3.90mm 瀵級渚涙噳(y墨ng)鍟嗚ō(sh猫)鍌欏皝瑁�:8-SOIC 鍖呰:甯跺嵎 (TR)
ISL28213FHZ	鍒堕€犲晢:INTERSIL 鍒堕€犲晢鍏ㄧū:Intersil Corporation 鍔熻兘鎻忚堪:Single, Dual, Quad General Purpose Micropower,RRIO Operational Amplifier
ISL28213FHZ-T7	鍔熻兘鎻忚堪:閬�(y霉n)绠楁斁澶у櫒 - 閬�(y霉n)鏀� ISL28213FHZ Pb-Free Dual General Purpose Micropower, RRIO Op RoHS:鍚� 鍒堕€犲晢:STMicroelectronics 閫氶亾鏁�(sh霉)閲�:4 鍏辨ā鎶戝埗姣旓紙鏈€灏忓€硷級:63 dB 杓稿叆瑁�(b菙)鍎熼浕澹�:1 mV 杓稿叆鍋忔祦锛堟渶澶у€硷級:10 pA 宸ヤ綔闆绘簮闆诲:2.7 V to 5.5 V 瀹夎棰�(f膿ng)鏍�:SMD/SMT 灏佽 / 绠遍珨:QFN-16 杞�(zhu菐n)鎻涢€熷害:0.89 V/us 闂�(gu膩n)闁�:No 杓稿嚭闆绘祦:55 mA 鏈€澶у伐浣滄韩搴�:+ 125 C 灏佽:Reel
ISL28213FHZ-T7A	鍔熻兘鎻忚堪:閬�(y霉n)绠楁斁澶у櫒 - 閬�(y霉n)鏀� ISL28213FHZ Pb-Free Dual General Purpose Micropower, RRIO Op RoHS:鍚� 鍒堕€犲晢:STMicroelectronics 閫氶亾鏁�(sh霉)閲�:4 鍏辨ā鎶戝埗姣旓紙鏈€灏忓€硷級:63 dB 杓稿叆瑁�(b菙)鍎熼浕澹�:1 mV 杓稿叆鍋忔祦锛堟渶澶у€硷級:10 pA 宸ヤ綔闆绘簮闆诲:2.7 V to 5.5 V 瀹夎棰�(f膿ng)鏍�:SMD/SMT 灏佽 / 绠遍珨:QFN-16 杞�(zhu菐n)鎻涢€熷害:0.89 V/us 闂�(gu膩n)闁�:No 杓稿嚭闆绘祦:55 mA 鏈€澶у伐浣滄韩搴�:+ 125 C 灏佽:Reel

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