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3022-005-P Datasheet, PDF (3/4 Pages) List of Unclassifed Manufacturers – PC Board Mountable Accelerometer Millivolt Output Low Cost
Model 3022
PC Board Mountable Accelerometer
PERFORMANCE SPECIFICATIONS
Supply Voltage: 5.0 VDC
Ambient Temperature: 25°C (Unless otherwise specified)
__________________________R__A_N__G_E______________________________
___P_A__R_A__M__E_T_E_R__S_________________________________±__2_G____________±_5_G____________±_1__0_G____________±_2__0_G______________U_N__IT__S_______________N_O__T_E_S_________
___F_r_e_q_u_e__n_c_y_R__e_s_p_o_n__s_e_[_M__I_N_]____________________0__-2__5_0__________0_-_3_0_0___________0_-_4_0__0___________0_-_6_0_0________________H_z__________________1_,__9__________
___M__o_u_n_t_e_d__R__e_s_o_n_a_n_t__F_r_e_q_u_e_n__c_y_[_M__IN__]____________7__0_0____________8_0_0____________1__0_0_0____________1_5__0_0________________H_z__________________8_,__9__________
Sensitivity (MIN/MAX)
8.0/20.0 6.0/15.0
3.0/6.0
1.5/3.0
mV/g
2
__________________________R__A_N__G_E______________________________
___P_A__R_A__M__E_T_E_R__S_________________________________±_5_0__G_________±__1_0_0__G__________±_2_0__0_G__________±__5_0_0__G_____________U_N__IT__S_______________N_O__T_E_S_________
___F_r_e_q_u_e__n_c_y_R__e_s_p_o_n__s_e_[_M__I_N_]____________________0_-_1_0_0__0________0_-_1_5__0_0_________0__-2__0_0_0__________0_-_2_4__0_0_______________H_z__________________1_,__9__________
___M__o_u_n_t_e_d__R__e_s_o_n_a_n_t__F_r_e_q_u_e_n__c_y_[_M__IN__]____________2_0_0__0__________3_0__0_0___________4__0_0_0____________5_0__0_0________________H_z__________________8_,__9__________
Sensitivity (MIN/MAX)
0.6/1.5
0.3/0.6
0.15/0.3
0.06/0.15
mV/g
2
___P_A__R_A__M__E_T_E_R__S____________________________________M__IN__________________T_Y__P_________________M__A_X_________________U_N__I_T_S_______________N__O_T_E__S________
___Z_e_r_o__A__c_c_e_le_r_a__ti_o_n__O_u_t_p_u_t______________________________________________5__.0__________________2_5__.0__________________±_m__V___________________9___________
___D__a_m__p_in_g__R__a_ti_o____________________________________0_._4__________________0__.7___________________0_._9_______________________________________8_,_9__________
___N__o_n_-l_in_e__a_r_it_y__________________________________________________________0__.5___________________1_._0________________±_%___S_p_a_n_________________4___________
___T_r_a_n_s_v_e_r_s_e__S_e__n_s_it_iv_i_t_y_________________________________________________1__.0___________________3_._0________________±_%___S_p_a_n____________________________
___I_n_p_u_t_&___O_u_t_p_u_t__R_e_s_i_s_t_a_n_c_e_________________________2_._5__________________3__.5___________________6_._5___________________k_Ω____________________9___________
___T_e_m__p_e_r_a_t_u_r_e__E_r_r_o_r__- _S_p_a_n______________________________________________1__.0___________________2_._0________________±_%___S_p_a_n________________3_,_5__________
___T_e_m__p_e_r_a_t_u_r_e__E_r_r_o_r__- _Z_e_r_o______________________________________________1__.0___________________2_._0________________±_%___S_p_a_n________________3_,_5__________
___S_u_p__p_ly__V_o_l_ta_g__e________________________________________________________5__.0__________________1_0__.0__________________V_D__C______________________________
___O_u__tp_u__t _N__o_is_e__________________________________________________________1__.0______________________________________µ_V__p_-_p__________________6___________
___O_u__tp_u__t _L_o_a_d__R__e_s_is_t_a_n__c_e____________________________5____________________________________________________________M__Ω_______________________________
___A_c__c_e_le_r_a_t_io__n__L_im__it_s__(_A_n_y__D_i_r_e_c_ti_o_n_)_____________________________________2_0__X_____________________________________R__a_t_e_d__________________7___________
___O_p__e_r_a_ti_n_g__T_e_m__p_e_r_a_t_u_r_e______________________-_4_0__°C___to__+_1__2_5_°_C_____________________________________________________________________________________
___S_t_o_r_a_g_e__T_e_m__p_e_r_a_t_u_r_e________________________-_5_5__°C___to__+_1__5_0_°_C_____________________________________________________________________________________
___W__e_i_g_h_t_____________________________________6__.5___G_r_a_m__s__________________________________________________________________________________________
Materials
Alumina ceramic substrate with alumina ceramic cap
Notes
1. The frequency response is defined as the range of frequencies over
which the device sensitivity is within ±5% of the DC value.
2. Output voltage increases for positive acceleration; output voltage
decreases for negative acceleration.
3. Percentage values are with external compensation. The uncompensated
temperature coefficients are measured and specified with each unit. In
addition, the values of the resistors that provide a temperature
compensated output are provided with each unit. These resistors are
for use in the circuit shown in Figure 2.
4. Best Fit Straight Line. For full scale ranges of 10g or less, the maximum
non-linearity is ±2%.
5. Compensated temperature range: 0-50°C in reference to 25°C.
6. 10 Hz to 1 kHz.
7. 400g for ±2g, ±5g, and ±10g versions. 20X or 2000g for other
versions, whichever is less.
8. For sensors having a resonant frequency greater than 5 kHz, the
calibration data sheet will indicate ">5 kHz." In addition, the damping
ratio will indicate N/A.
9. Actual test data for this parameter is included on the calibration sheet
provided with each sensor. A sample of this calibration sheet is shown
as Figure 1.
2-12
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Accelerometer Selection Guide–Unamplified