LabJack LJTick-InBuff (LJTIB) – Input Buffer for U3 U6 UE9 T4 T7 Series

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Stok 5

Very low bias current (1pA) input buffer which can directly measure pH sensors (electrode type sensors) and other weakly driven or high source impedance signals. The analog inputs on our compatible DAQ products (U3, U6, UE9, T4, T7) have typical bias currents on the order of 20 nA, which is quite low, but the LJTick-InBuff reduces that dramatically.

Status Barang: Ready

Kondisi: Baru

Minimal Order: 1 pcs

◆ Only requires 1pA bias current
◆ ±10V input range
◆ Has pads to optionally install gain resistors

EACH UNIT INCLUDES WITH:
◆ LJTick-InBuff only

SKU: LJ-TickInBuff Kategori: Data Acquisition (DAQ) Brand: LabJack

Berat	0,2 kg

The LJTick-InBuff (LJTIB) is an input buffer tick that allows LabJack devices to directly measure pH sensors and other kinds of weak signals. Our main LabJack DAQ products (U3, U6, UE9, and T7) require somewhere on the order of 10 to 100pA of bias current. This accessory can really help users trying to measure signals with >10MΩ of source impedance. The LJTick-InBuff accomplishes this by adding a Texas Instruments OPA2140 high-precision, low-noise Op Amp in between a devices analog input channel and the sensor. Simply connect the LJTick-InBuff to a screw terminal with analog inputs and connect a sensor to the INA or INB screw terminal of the LJTick-InBuff.

1pA bias current
±10V input & output range
Has pads to optionally install gain resistors & input filter.

Common Applications

Measuring PH sensors.

Screw Terminal Descriptions

VS: This is the same 5 volt output as the VS terminals on the LabJack itself. This is an output terminal, not an input. It can be used to provide 5 volt (nominal) power as needed.

GND: Same as LabJack ground (GND).

INA/INB: These input lines go through the Op Amps to have their signals amplified before being sent to a LabJack device.

LJTick-InBuff Hardware Block Diagram

LJTick-InBuff Schematic

Usage with the T4 or U3-HV

The T4 and U3-HV have a mix of high voltage analog inputs (±10 volt range) and low voltage analog inputs (±2.5/2.4 volt range). Most input ticks are best used with the low voltage analog inputs, but the LJTick-InBuff is unique in that it has a ±10 volt output range and thus either type of analog input might be best depending on the range of the input signal.

Optional Gain and Filtering

The LJTick-InBuff is configured with unity gain (no amplification) and no filtering is applied at the inputs. The LJTick-InBuff has optional SMD pads to apply gain and filtering as shown in Figure 4.

Voltage Gain

Resistors labeled R1/R2 and R3/R4 on the LJTick-InBuff can be modified to add gain to the InBuff operational amplifiers as described using Table 1 and the formulas below.

Gain = 1 + R_F/R_G

Vout = Vin * (1 + R_F/R_G)

Table 1. LJTick-InBuff Optional Gain Resistors


INA	R1	R3
INB	R2	R4

Optional Low Pass Filter

Resistors labeled R5/R6 and capacitors labeled C1/C2 on the LJTick-InBuff can be modified to add a low pass filter to the inputs as described using Table 2 and the formulas below.

f_cutoff = 1 / (2πRC)

Table 2. LJTick-InBuff Optional Filtering Parts


INA	R5	C1
INB	R6	C2

Specifications

Parameter	Conditions	Min	Typical	Max	Units

General
Input Voltage Range		-10		10	Volts
Temperature Range		-40		85	°C
Supply Voltage		4		5.25	Volts
Supply Current			28		mA

Input Bias Current			±0.5	±10	pA
Input Impedance			10^13		Ω
Input Capacitance			10		pF
Gain Accuracy
Offset Accuracy				±100	μV
Cutoff Frequency	0-5V Input Sine Wave		4.3		MHz
	±10V Input Sine Wave		120		kHz

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