2306-US KEITHLEY, 2306-US Datasheet

2306-US

Manufacturer Part Number

2306-US

Description

58T8426

Manufacturer

KEITHLEY

Datasheet

1.2306-US.pdf (7 pages)

Specifications of 2306-US

No. Of Outputs

Output Voltage

15V

Output Voltage 2

15V

Output Current

Output Current 2

Load Regulation

0.01%

Length

411mm

Width

213mm

Height

89mm

Weight

3.9kg

Power Supply Output Type

Variable

Input Voltage

100VAC To 120VAC / 220VAC To 240VAC

Power Rating

50W

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2306-VS Dual Channel Battery/Charger Simulator

OUTPUT #1 (BATTERY)

DC VOLTAGE OUTPUT (2 YEARS, 23°C ± 5°C)

OUTPUT VOLTAGE: 0 to +15VDC.

OUTPUT ACCURACY: ±(0.05% + 3mV).

PROGRAMMING RESOLUTION: 1mV.

READBACK ACCURACY

READBACK RESOLUTION: 1mV.

LOAD REGULATION: ±(0.01% + 2mV).

LINE REGULATION: ±(0.5mV).

STABILITY

MEASUREMENT TIME CHOICES: 0.01 to 10 PLC

AVERAGE READINGS: 1 to 10.

READING TIME

TRANSIENT RESPONSE:

REMOTE SENSE: 1V max. drop in each lead. Add 2mV to the voltage load regulation

VARIABLE OUTPUT IMPEDANCE

RANGE: 0 to 1.00Ω in 0.01Ω steps. Value can be changed with output on if trigger

DC CURRENT (2 YEARS, 23°C ± 5°C)

CONTINUOUS AVERAGE OUTPUT CURRENT:

CONTINUOUS AVERAGE SINK CURRENT:

SOURCE COMPLIANCE ACCURACY: ±(0.16% + 5mA)

PROGRAMMED SOURCE COMPLIANCE RESOLUTION: 1.25mA.

READBACK ACCURACY

READBACK RESOLUTION:

LOAD REGULATION: ±(0.01% + 1mA).

LINE REGULATION: ±(0.5mA).

STABILITY

MEASUREMENT TIME CHOICES: 0.01 to 10 PLC

AVERAGE READINGS: 1 to 10.

READING TIME

Transient Recovery Time

Transient Voltage Drop

specification for each 1V change in the negative output lead due to load current

change. Remote sense required. Integrity of connection continually monitored. If

compromised, output will turn off automatically once settable window (±0 to ±8 volts)

around normal voltage exceeded.

external disabled on channel.

Channel #2 (Charger) OFF: I = 50W/(Vset channel 1 + 6V); 5A max.

Channel #2 (Charger) ON: I = (50W – Power consumed by channel #2)/(Vset

channel 1 + 6V); 5A max.

Peak currents can be a maximum of 5A provided the average current is within the

above limits.

The power consumed by channel #2 is calculated as:

Channel #2 (Charger) OFF:

Channel #2 (Charger) ON:

Channel #2 sourcing current:

Channel #2 sinking current:

0–5V: 3A max.

5–15V: Derate 0.2A per volt above 5V. Compliance setting controls sinking.

Available current = (50W – Power consumed by channel #2)/5; 3A max. (0–5V).

Derate 0.2A per volt above 5V.

Power consumed = (Vset channel 2 + 6V) x (current supplied)

Power consumed = 5 x (sink current)

: ±(0.01% + 0.5mV).

: ±(0.01% + 50µA).

1, 8, 9

: 31ms, typical.

: ±(0.05% + 3mV).

High Bandwidth

<40µs

<75mV

5A Range: ±(0.2% + 200µA).

5mA Range: ±(0.2% + 1µA).

5A Range: 100µA.

5mA Range: 0.1µA.

or <60µs

or <100mV

, in 0.01PLC steps.

Low Bandwidth

<80µs

<250mV

or <100µs

or <400mV

PULSE CURRENT MEASUREMENT OPERATION

TRIGGER LEVEL: 5A Range: 5mA to 5A, in 5mA steps.

TRIGGER DELAY: 0 to 100ms, in 10µs steps.

INTERNAL TRIGGER DELAY: 15µs.

HIGH/LOW/AVERAGE MODE:

PULSE CURRENT MEASUREMENT ACCURACY

BURST MODE CURRENT MEASUREMENT

MEASUREMENT APERTURE: 33.3µs to 833ms, in 33.3µs steps.

CONVERSION RATE: 3650/second at 33.3µs meas. aper., typical.

INTERNAL TRIGGER DELAY: 15µs with 33µs.

NUMBER OF SAMPLES: 1 to 5000.

TRANSFER SAMPLES ACROSS IEEE BUS IN BINARY MODE:

LONG INTEGRATION MODE CURRENT MEASUREMENT

MEASUREMENT TIME

DIGITAL VOLTMETER INPUT (2 YEARS, 23°C ± 5°C)

INPUT VOLTAGE RANGE: –5 to +30VDC.

INPUT IMPEDANCE: 2MΩ typical.

MAXIMUM VOLTAGE (either input terminal) WITH RESPECT

READING ACCURACY

READING RESOLUTION: 1mV.

CONNECTOR: HI and LO input pair part of Output #1’s terminal

MEASUREMENT TIME CHOICES: 0.01 to 10 PLC

AVERAGE READINGS: 1 to 10.

READING TIME

VOLTAGE SETTLING TIMES

NOTE: Times are under no load condition and settling times defined at +/- 2% of

0V < Voltage step < 15V

1A Range: 1mA to 1A, in 1mA steps.

100mA Range: 0.1mA to 100mA, in 100µA steps.

Measurement Aperture Settings: 33.3µs to 833ms, in 33.3µs steps.

Average Readings: 1 to 100.

(2 Years, 23°C ±5°C):

4800 bytes/s, typical.

TO OUTPUT LOW: –5V, +30V.

block.

steps.

Decreasing Voltage

500 µs – <1 PLC

Increasing Voltage

100 µs – 200 µs

200 µs – 500 µs

Voltage step ≤ 7V

Voltage step > 7V

Aperture

<100 µs

1 PLC

>1 PLC

step size.

Voltage Step Settling Times - Typical

1, 8, 9

: 31ms, typical.

Accuracy ±(% reading + offset + rms noise

: ±(0.05% + 3mV).

: 850ms (840ms) to 60 seconds in 1ms steps.

10-90% Rise Time

10-90% Fall Time

50µs to 1.2ms

50µs to 250µs

0.2% + 900 µA + 1.5mA

0.2% + 600 µA + 0.8mA

0.2% + 400 µA + 100µA

0.2% + 900 µA + 2mA

0.2% + 900 µA + 1mA

0.2% + 400 µA + 0mA

50µs

300µs to 1.8ms

Settling Time

, in 0.01PLC

300µs

)

HW 6/20/03

Page 1 of 7

Rev. B

Related parts for 2306-US

2306-US Summary of contents

Page 1

... Dual Channel Battery/Charger Simulator OUTPUT #1 (BATTERY) DC VOLTAGE OUTPUT (2 YEARS, 23°C ± 5°C) OUTPUT VOLTAGE +15VDC. OUTPUT ACCURACY: ±(0.05% + 3mV). PROGRAMMING RESOLUTION: 1mV. 1 READBACK ACCURACY : ±(0.05% + 3mV). READBACK RESOLUTION: 1mV. LOAD REGULATION: ±(0.01% + 2mV). LINE REGULATION: ±(0.5mV). ...

Page 2

... Dual Channel Battery/Charger Simulator OUTPUT #2 (CHARGER) DC VOLTAGE OUTPUT (2 YEARS, 23°C ± 5°C) OUTPUT VOLTAGE +15VDC. OUTPUT ACCURACY: ±(0.05% + 10mV). PROGRAMMING RESOLUTION: 10mV. 1 READBACK ACCURACY : ±(0.05% + 3mV). READBACK RESOLUTION: 1mV. OUTPUT VOLTAGE SETTLING TIME: 5ms to within stated accuracy. LOAD REGULATION: ±(0.01% + 2mV). ...

Page 3

... Dual Channel Battery/Charger Simulator VOLTAGE STEPPING ONLY TEST CONDITIONS: 1. Trigger external is enabled on both channels. 2. Only a single channel is externally triggered during the sequence while remaining channel stays idle. 3. Times based on 0 programmable user delay. Output #1 (Battery 70µs typical B = 330µs typical C = Programmable user delay (0-5 seconds 400µ ...

Page 4

... Dual Channel Battery/Charger Simulator VOLTAGE STEPPING WITH AUTO MEASUREMENT TEST CONDITIONS: 1. Trigger external is enabled on both channels. 2. Only a single channel is externally triggered during the sequence while remaining channel stays idle. 3. Times based on 0 programmable user delay. 4. Measurement time = 167µs (0.01 plc). ...

Page 5

... Dual Channel Battery/Charger Simulator VOLTAGE STEPPING BOTH CHANNELS WITH CHANNEL 2 TEST CONDITIONS: 1. Only a single channel is externally triggered during the sequence while remaining channel stays idle. 2. Times based on 0 programmable user delay. AUTO MEASUREMENT BOTH CHANNELS WITH CHANNEL 1 TEST CONDITIONS: 1. Only a single channel is externally triggered during the sequence while remaining channel stays idle. ...

Page 6

... Dual Channel Battery/Charger Simulator AUTO MEASUREMENT BOTH CHANNELS WITH CHANNEL 2 TEST CONDITIONS: 1. Only a single channel is externally triggered during the sequence while remaining channel stays idle. 2. Times based on 0 programmable user delay. 3. Measurement time = 167µs (0.01 plc). 4. Steps points = 4. VOLTAGE STEPPING WITH SYNC MEASUREMENT TEST CONDITIONS: 1 ...

Page 7

... Dual Channel Battery/Charger Simulator GENERAL ISOLATION (LOW–EARTH): 22VDC max. Do not exceed 60VDC between any two terminals of either connector. PROGRAMMING: IEEE-488.2 (SCPI). USER-DEFINABLE POWER-UP STATES: 3. REAR PANEL CONNECTORS: Two trigger in and two trigger out (BNC) connectors. Two 8-position quick disconnect terminal block for output (4), sense (2), and DVM (2). TRIGGER IN/OUT CONNECTORS: IN High 3-5V, IN Low ≤ ...

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