Single Electrode Clamp

SEC-05X

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Category: Intracellular Tags: amplifiers, bridge recording, electrophysiology rig, extracellular recording, in vitro recording, in vivo recording, intracellular recording, oocyte recording, patch clamp, patch clamp rig, single electrode voltage clamp, two elecrode voltage clamp, xenopus recording

Overview

SEC series systems are versatile intracellular recording systems. SEC systems are the fastest and most accurate single-electrode current – and voltage – clamp systems available.
These amplifiers are suitable for recordings with high resistance microelectrodes, for tight-seal perforated patch, or whole-cell recording techniques. They also allow intracellular recordings during in vivo voltammetry experiments. Currently, SEC amplifiers are used in vertebrate (rat, mouse, cat, fish etc.) and invertebrate (leech, crab, snail, insect etc.) neurons, muscle cells, other excitable tissue and plant cells.
A significant improvement over other time-sharing amplifiers is that the SEC systems fully compensate the recording microelectrode. This allows single electrode recordings with the same accuracy and speed of response as with the standard two electrode voltage clamp approach.

All systems include four (optionally eight) modes of operation, many automatic functions, protection circuits, versatile I/O signal conditioning units, and digitally controlled operation. All of these features make these amplifiers the ideal research instruments for all electrophysiological investigations using intracellular microelectrodes or suction electrodes (patch pipettes).

The SEC is also available as module for the EPMS-07 System.

Save money with this simpler version of the SEC-10LX
Avoid series resistance induced errors
Same performance and speed as the SEC-10LX
Gating unit available as accessory
Modular version available: SEC-03M

Last Updated on October 10, 2024

Features

Four modes of operation by default
- Bridge mode (BR)
- Current Clamp mode (CC)
- Voltage Clamp mode (VC)
- Electrode resistance test mode (REL)

Three additional modes optional
- Voltage Clamp controlled Current Clamp mode (VCcCC)
  Allows Current Clamp experiments at controlled resting potentials
- Dynamic Hybrid Clamp mode (DHC)
  Allows precise measurement of conductances after action potentials
- Linear (unswitched) mode (LIN), optional with series resistance compensation
  x1: Allows low-noise recordings of small currents, and approaching the cell and seal formation in VC mode
  x10: Provides 10 times more current in CC and 10 times more voltage in VC mode for non-invasive (juxtacellular) filling of cells

Complete compensation of electrode artifacts allowing high (>30 kHz) switching frequencies
No series resistance errors
Perfect for recording also from coupled cells with two synchronized SEC amplifiers (SEC-DUAL)
Recordings with sharp microelectrodes or patch pipettes
True current clamp in switched and bridge mode
Fast switched voltage clamp with proportional-integral (PI) controller
Versatile and configurable penetration unit
BESSEL filters for current and voltage (16 corner frequencies)
Monitors for filters and current output sensitivity
Optional Gating Unit GIA-05X

Also available as module for the EPMS-07 System.

Last Updated on October 10, 2024

Specifications

MODES of OPERATION	R : Electrode resistance test EL BR: Bridge mode CC: Current Clamp mode VC: Voltage Clamp Mode DHC: Dynamic Hybrid Clamp mode (option) VCcCC: Voltage Clamp controlled Current Clamp mode (option) LIN: Linear mode (x1 and x10) LIN: Linear mode with series resistance compensation Mode selection: rotary switch with six positions (SEC 05X) four pushbuttons (SEC 10LX) rotary switch with five positions (SEC 03) Linear mode with switch
HEADSTAGES	Standard headstage(SH), low-noise Headstages(HSP) operation voltage: ±15 V size: 100x40x25mm, HSP: 77x37x20mm headstage enclosure connected to ground electrode connector: gold plated SMB (SH) BNC connector (HSP), both with driven shield ground: 2.6 mm connector or headstage enclosure 13 input resistance: >10 Ohms current range (continuous mode): 150 nA (SH); 15 nA into 100 MOhms (HSP) CC control: Coarse control for cap. comp. holding bar (SH): diameter 8 mm, length 10 cm mounting plate (HSP headstage) 60×50 mm EXT headstage: 1 mm connectors, differential high impedance input, gain of ten cap. comp. for the non-inverting input high pass filter with six corner frequencies (1; 3; 10; 30; 100; 300 Hz)
BANDWIDTH AND SPEED OF RESPONSE	Full power bandwidth (Re=0): >100 kHz rise time (10-90%, Re = 100 MOhms) <30 μs rise time (10-90%, Re = 5 MOhms) <8 μs Electrode artifact decay (switched modes 10 nA signal) <1 μs (Re = 5 MOhms) <1.5 μs (Re = 100 MOhms) cap. comp. tuned with no overshoot
ELECTRODE RESISTANCE TEST	10 mV/MOhm, obtained by application of square current pulses ±1 nA, display XXX MOhm
OSCILLATION SHUT-OFF	Turns off current injection and cap. comp. indicated by red/green LED, disabled / off / reset switch threshold set with linear control (0-1200 mV). SEC-03: no oscillation shut-off
CELL PENETRATION	Overcompensation of cap. comp., timer controlled,with remote switch connected via BNC connector. Application of DC pulses, variable frequency and amplitude, timer controlled, with remote switch connected via BNC connector (SEC-10). Application of max. continuous DC current, BUZZ, with push button or remote switch connected via BNC connector (SEC-05). No cell penetration unit (SEC-03) (modular penetration unit available)
SWITCHED MODES PARAMETERS	Switching frequency: linear control 1.5 to >50 kHz; display: XX.XX kHz. duty cycles: 1/2, 1/4, 1/8 selected by toggle switch. SEC-03: fixed 1/4 duty cycleCURRENT RANGE vs. DUTY CYCLE 1/8 – 15 nA; 1/4 – 30 nA, 1/2 – 60 nA (standard 15 V headstage) 1/8 – 1.5 nA; 1/4 – 3 nA, 1/2 – 6 nA (low noise headstage)
SWITCHED MODE OUTPUTS	Electrode potential: max. ±15 V, output impedance 250 Ohms. switching frequency: TTL (5 V), output impedance 250 Ohms.
CURRENT OUTPUT	Sensitivity: 0.1…10 V/nA in 1-2-5 steps with lowpass Bessel filter output impedance 250 Ohms sensitivity monitor: 1…7 V, 1V/switch position output impedance 250 Ohms current display: X.XX nA SEC-03: fix 0.1V/nA
POTENTIAL OUPUT	Sensitivity x10 mV, with lowpass Bessel filter output impedance 250 Ohms potential display: XXX mV
AUDIO MONITOR	Pitch correlated with potential signal
OUTPUT FILTERS	SEC-05: four-pole lowpass Bessel filter with 16 corner frequencies, 20 Hz – 20 kHz frequency monitor: -8…+7 V, 1 V/switch position output impedance 250 Ohms. SEC-10: four-pole lowpass Bessel filter with 16 corner frequencies, 20 Hz – 20 kHz frequency monitor: -8…+7 V, 1 V/switch position output impedance 250 Ohms. SEC-03: unfiltered or 5 kHz, internally adjustable
CURRENT CLAMP	Inputs: 1 nA/V, 0.1 nA/V with ON/OFF switches SEC-03: 1 nA/V input resistance >100 kOhms hold: X.XX nA ten-turn digital control, -/0/+ switch max. 10 nA. Gated input (SEC-10 systems only): X.XX nA with +/0/- switch, TTL input (HI >2.5 V, input resistance 10 kOhm). BRIDGE balance: XXX MOhms with ten-turn digital control. noise (BRIDGE MODE): 400μV pp / pA pp with 100 MOhms resistance at 10 kHz bandwidth (internal four-pole Bessel filters) VOLTAGE CLAMP Inputs: 10 mV or 40 mV SEC-03: 10mV input resistance >100 kOhms hold: XXX mV, ten-turn digital control with +/0/- switch, max. 1000 mV rise time limit: 0-2 ms (SEC-05 / SEC-10 only) gain: 100 nA/V – 10 μA/V ten-turn linear control noise (filters set to 10 kHz, SEC-05 / SEC-10) Potential output: <400 μV pp current output: <400 pA pp
SPEED of RESPONSE (VC Mode)	1 % settling time: <80 μs for 10 mV step <800 μs for 50 mV step applied to cell model (Re= 100 MOhms, Rm= 50 MOhms, Cm= 470 pF duty cycle = 1/4, switching frequency = 30 kHz standard headstage) <400 μs with 1/2 duty cycle.
DIMENSIONS	SEC-05 / SEC-10 systems: 19″ (483 mm) wide 14″ (355 mm) deep 5.25″ (132.5 mm) high, SEC-03 (two slots): 24 HP (121 mm) x 3U (128 mm) x 7 inch (175 mm)

Last Updated on October 10, 2024

Downloads

Manuals:
SEC-05X Manual

Brochure:
SEC Brochure

intracellular amplifier

Last Updated on October 10, 2024

References

Extraretinal Spike Normalization in Retinal Ganglion Cell Axons

Anqi Shi, Alexandra L Petrache, Jiachen Shi, Afia B Ali, Preserved Calretinin Interneurons in an App Model of Alzheimer’s Disease Disrupt Hippocampal Inhibition via Upregulated P2Y1 Purinoreceptors, Cerebral Cortex, Volume 30, Issue 3, March 2020, Pages 1272–1290, https://doi.org/10.1093/cercor/bhz165

A Direct Comparison of Different Measures for the Strength of Electrical Synapses

Last Updated on October 10, 2024

Ordering

Part No.	Description
SEC-10LX	SEC-10LX System
SEC-05X	SEC 05X System with 4-pole Bessel Filter
SEC-HS	SEC-HS Standard Headstage
SEC-EXT	SEC-EXT Headstage for extracellular recordings
SEC-HSD	SEC-HSD Headstage with differential input
SEC-HSP	SEC-HSP Low-noise Headstage
SEC-MINI-HS	Miniature Headstages, several models available, on request
SEC-SLOW	VCcCC Modification of SEC System, Surplus
SEC-LIN	SEC with Linear Mode, (CC/VC x1, CC/VC x10 modes), Surplus
SEC-LIN-RS	SEC with Linear Mode, (CC/VC x1, CC/VC x10 modes) and Series Res. Comp., Surplus
SEC-DHC	Dynamic Hybrid Clamp (DHC) Modification of SEC System, Surplus
SEC-GIA	SEC Gating Unit for SEC-05
SEC-MOD	SEC Cell Model Circuit
SEC-PRS	Remote Control f. PENETRATION unit

Last Updated on October 10, 2024